Paradyne Network Card 3162 DSU CSU User Manual

ACCULINK  
3162 DSU/CSU  
USER’S GUIDE  
Document No. 3162-A2-GB20-30  
March 1999  
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Important Information  
!
Important Safety Instructions  
1. Read and follow all warning notices and instructions marked on the product or included in the manual.  
2. This product is intended to be used with a 3-wire grounding type plug – a plug which has a grounding pin. This is  
a safety feature. Equipment grounding is vital to ensure safe operation. Do not defeat the purpose of the  
grounding type plug by modifying the plug or using an adapter.  
Prior to installation, use an outlet tester or a voltmeter to check the ac receptacle for the presence of earth  
ground. If the receptacle is not properly grounded, the installation must not continue until a qualified electrician  
has corrected the problem.  
If a 3-wire grounding type power source is not available, consult a qualified electrician to determine another  
method of grounding the equipment.  
3. 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.  
4. Do not allow anything to rest on the power cord and do not locate the product where persons will walk on the  
power cord.  
5. Do not attempt to service this product yourself, as opening or removing covers may expose you to dangerous  
high voltage points or other risks. Refer all servicing to qualified service personnel.  
6. General purpose cables are provided with this product. Special cables, which may be required by the regulatory  
inspection authority for the installation site, are the responsibility of the customer.  
7. When installed in the final configuration, 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.  
8. 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.  
9. Input power to the ac voltage configuration of this product must be provided by a UL-listed or CSA-certified power  
source with a Class 2 or Limited Power Source (LPS) output.  
10. This product contains a coin cell lithium battery that is only to be replaced at the factory. Caution: There is a  
danger of explosion if the battery is incorrectly replaced. Replace only with the same type. Dispose of used  
batteries according to the battery manufacturer’s instructions. Attention: Il y a danger d’explosion s’il y a  
remplacement incorrect de la batterie. Remplacer uniquement avec une batterie du même type. Mettre au rebut  
les batteries usagées conformément aux instructions du fabricant.  
11. In addition, if 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.  
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Important Information  
EMI Warnings  
!
WARNING:  
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.  
!
WARNING:  
To Users of Digital Apparatus in Canada:  
This Class A digital apparatus meets all requirements of the Canadian interference-causing equipment  
regulations.  
Cet appareil numérique de la classe A respecte toutes les exigences du règlement sur le matérial  
brouilleur du Canada.  
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Important Information  
Government Requirements and Equipment Return  
Certain governments require that instructions pertaining to CSU connection to the telephone network be included in  
the installation and operation manual. Specific instructions are listed in the following sections.  
United States  
NOTICE TO USERS OF THE UNITED STATES TELEPHONE NETWORK  
1. This equipment complies with Part 68 of the FCC rules. On the bottom of the DSU/CSU is a label that contains,  
among other information, the FCC registration number. If requested, this information must be provided to the  
telephone company.  
2. The T1 network connection 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 DSU/CSU can be configured  
to support any of the following framing format and line signaling techniques. The DSU/CSU configuration must  
correspond to the T1 line’s parameters.  
DSU/CSU Facility Interface Codes  
Code  
Description  
04DU9-BN  
04DU9-DN  
04DU9-1KN  
04DU-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  
3. An FCC compliant telephone cord and modular plug is provided with this equipment. This equipment is designed  
to be connected to the telephone network or premises wiring using a compatible modular jack which is Part 68  
compliant. See the installation instructions for details.  
4. If the DSU/CSU 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 is not 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.  
5. 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 the necessary modifications in order to maintain uninterrupted service.  
6. If you experience trouble with this equipment, please contact your sales or service representative (as appropriate)  
for repair or warranty information. If the product needs to be returned to the company service center for repair,  
contact them directly for return instructions using one of the following methods:  
H Via the Internet: Visit the Paradyne World Wide Web site at http://www.paradyne.com  
H Via Telephone: Call our automated call system to receive current information via fax or to speak with a  
company representative.  
Within the U.S.A., call 1-800-870-2221  
Outside the U.S.A., call 727-530-2340  
If the trouble is causing harm to the telephone network, the telephone company may request that you remove the  
equipment from the network until the problem is resolved.  
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Important Information  
7. If your DSU/CSU is in need of repair, refer to the Warranty, Sales and Service Information section on page A.  
8. No repairs may be made by the customer.  
Canada  
NOTICE TO USERS OF THE CANADIAN TELEPHONE NETWORK  
The Industry Canada label identifies certified equipment. This certification means that the equipment meets  
telecommunications network protective, operational, and safety requirements as prescribed in the appropriate  
Terminal Equipment Technical Requirements document(s). The Department does not guarantee the equipment will  
operate to the user’s satisfaction.  
Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of the local  
telecommunications company. The equipment must also be installed using an acceptable method of connection. The  
customer should be aware that compliance with the above conditions may not prevent degradation of service in some  
situations.  
Repairs to certified equipment should be coordinated by a representative designated by the supplier. Any repairs or  
alterations made by the user to this equipment, or equipment malfunctions, may give the telecommunications  
company cause to request the user to disconnect the equipment.  
Users should ensure for their own protection that the electrical ground connections of the power utility, telephone  
lines, and internal metallic water pipe system, if present, are connected together. This precaution may be particularly  
important in rural areas.  
Caution:  
Users should not attempt to make such connections themselves, but should contact the appropriate electric  
inspection authority, or electrician, as appropriate.  
If your equipment is in need of repair, refer to the procedure on page A of this document.  
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Contents  
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Contents  
Network Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-26  
Allocating Data Ports Using the Block or ACAMI Assignment  
Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-29  
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Contents  
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Contents  
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Contents  
TCP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-10  
UDP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-10  
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Contents  
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About This Guide  
Document Purpose and Intended Audience  
This user’s guide contains installation, operation, and maintenance information  
for the ACCULINK 3162 Data Service Unit (DSU)/Channel Service Unit (CSU).  
It is assumed that you are familiar with the operation of digital data  
communication equipment. You should also be familiar with Simple Network  
Management Protocol (SNMP) if you want your DSU/CSU to be managed by an  
SNMP manager.  
Document Summary  
Section  
Description  
Introduction. Describes the 3162 DSU/CSU and its  
features.  
Installation. Describes how to install the DSU/CSU and  
make connections.  
Operation. Provides instructions for using the front  
panel, using an asynchronous terminal to change  
configuration options, and establishing security.  
Maintenance. Contains procedures for monitoring,  
testing, and troubleshooting.  
Asynchronous Terminal Menu. Contains a menu tree  
showing all the main front panel functions.  
Technical Specifications. Contains technical  
specifications for the 3162 DSU/CSU.  
Configuration Options. Contains all the configuration  
options and default settings.  
Pin Assignments. Shows the pin assignments for  
connectors and cables.  
SNMP MIB Objects. Describes the MIB objects  
supported by the DSU/CSU.  
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About This Guide  
Section  
Description  
IP Network Addressing Scenario. Provides sample IP  
addressing scheme.  
Equipment List. Contains order numbers for cables and  
other related parts.  
Defines abbreviations and terms used in this  
document.  
Lists key terms, concepts, and sections in alphabetical  
order.  
Product-Related Documents  
Document Number  
Document Title  
3160-A2-GB21  
ACCULINK 3160, 3161, 3164, and 3165 Data  
Service Unit/Channel Service Unit Operator’s Guide  
Contact your sales or service representative to order additional product  
documentation.  
Paradyne documents are also available on the World Wide Web at:  
http://www.paradyne.com  
Reference Documents  
AT&T Technical Reference 54016  
AT&T Technical Reference 62411  
ANSI T1.403-1989  
Industry Canada CS-03  
CSA-22.2 No. 950  
Industry Canada (ICES)-003  
FCC Part 15  
FCC Part 68  
UL 1950  
Management Information Base for Network Management of TCP/IP- Based  
Internets: MIBII. RFC 1213, March 1991  
Definitions of Managed Objects for the DS1 and E1 Interface Types. RFC 1406,  
January 1993  
Definitions of Managed Objects for RS-232-like Hardware Devices. RFC 1317,  
April 1992  
Extensions to the Generic-Interface MIB. RFC 1229, May 1991  
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Introduction  
1
Overview  
The DSU/CSU acts as an interface between the T1 digital network and the  
customer premises equipment, converting signals received from the DTE (Data  
Terminal Equipment) to bipolar signals that can be transmitted over T1 lines.  
Typical applications include shared access to network-based services, Local Area  
Network (LAN)/Wide Area Network (WAN) interconnection, and fractional T1  
network applications.  
In addition to the T1 network interface and the DTE Drop/Insert (DSX-1)  
interface, the Model 3162 provides two synchronous data ports.  
Features  
The DSU/CSU optimizes network performance with a wide range of features such  
as the following:  
H
H
H
H
H
H
H
Local or remote configuration and operation flexibility.  
Several loopback capabilities and test pattern generators.  
DTE Drop/Insert (DSX-1) capability.  
Asynchronous terminal interface support.  
Alarm message display/print capability.  
Telnet access for remote asynchronous terminal operations.  
Network management provided through industry-standard Simple Network  
Management Protocol (SNMP).  
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Introduction  
DTE Drop/Insert (DSX-1) Interface  
The DTE Drop/Insert interface allows DTEs/PBXs that support the DS1 signal  
format to share the T1 network with other high-speed equipment.  
Asynchronous Terminal Interface Support  
The DSU/CSU can be configured and managed from an asynchronous (async)  
terminal. The asynchronous terminal’s full screen display uses a menu hierarchy  
to perform device-control operations.  
with the use of the asynchronous terminal for DSU/CSU control.  
Alarm Message Capability  
The DSU/CSU can be attached, either locally or remotely, to an ASCII terminal or  
printer to display or print alarm messages. Alarms can also be displayed on a PC  
that is using a terminal emulation package.  
Telnet Access  
Remote async terminal operations can be performed using Telnet access. Telnet  
is a Transmission Control Protocol/Internet Protocol (TCP/IP) service that  
supports a virtual terminal interface.  
SNMP Management Support  
SNMP is a network management protocol that is used to monitor network  
performance and status, and to report alarms (i.e., traps). To function, SNMP  
requires a manager consisting of a software program housed within a workstation  
or PC; an agent consisting of a software program housed within a device (e.g.,  
the DSU/CSU); and a Management Information Base (MIB) consisting of a  
database of managed objects. The DSU/CSU can be managed by any  
industry-standard SNMP manager.  
Two link layer protocols, Point-to-Point Protocol (PPP) and Serial Line Internet  
Protocol (SLIP), are supported for connection to an external SNMP manager or  
network device (e.g., a router).  
The SNMP manager or network device can be directly connected to the  
communications (COM) port. An external LAN Adapter can be connected to  
either the COM port or the auxiliary (AUX) port to provide Ethernet connectivity.  
Also, the DSU/CSU can be daisy chained together by connecting the COM port of  
one device to the AUX port of the other, providing SNMP connectivity.  
The SNMP management system can communicate to the DSU/CSU remotely  
through the Facility Data Link (FDL) or the synchronous data port’s Embedded  
Data Link (EDL).  
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Introduction  
Physical Description  
The DSU/CSU front panel (Figure 1-1) contains twelve light-emitting diodes  
(LEDs) and six test jacks.  
The LEDs are described in the Front Panel LEDs section in Chapter 3, Operation.  
The test jacks are described in the Test Jacks section in Chapter 4, Maintenance.  
The DSU/CSU rear panel (Figure 1-2) contains the connectors required for the  
operation of the DSU/CSU. The connectors and their functions are listed in  
ACCULINK  
MON EQPT  
NET  
In  
In  
In  
OK FAIL TEST SIG OOF ALRM EER SIG OOF ALRM PDV BPV  
NETWORK DTR TXD RXD CTS RTS  
3162  
Out  
Out  
Out  
496-15001  
Figure 1-1. 3162 DSU/CSU Front Panel  
PORT 2  
EXT. CLOCK  
POWER  
PORT 1  
DSX-1  
AUX  
COM  
NETWORK  
496-15002  
Figure 1-2. 3162 DSU/CSU Rear Panel  
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Introduction  
Table 1-1. DSU/CSU Rear Panel Connectors  
Name  
Function  
POWER  
Supplies power to the DSU/CSU by providing an attachment for the  
ac power module.  
AUX PORT  
COM PORT  
Supports SNMP LAN Adapter or daisy-chain connections.  
Provides access to a locally connected PC, ASCII terminal or  
printer, SNMP management link, or asynchronous terminal  
interface.  
NETWORK  
DTE  
Provides access to the T1 network.  
Provides access to the DTE Drop/Insert (DSX-1) interface.  
Used to attach an external clock to the DSU/CSU.  
CLOCK IN  
PORTs 12  
Used to connect the customer’s synchronous data DTE to the  
DSU/CSU.  
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Installation  
2
Overview  
This chapter contains information for installing your DSU/CSU. It includes  
application examples, cabling, and power-up information.  
Application Examples  
The DSU/CSU acts as an interface between the T1 digital network and the  
customer’s equipment.  
The DSU/CSU is connected to the customer’s equipment through one of the  
synchronous data ports (PORTs 1– 2) or the DTE Drop/Insert (DSX-1) interface. It  
is connected to the T1 digital network through the network interface.  
Some common applications for the DSU/CSU are:  
H
H
H
Point-to-Point LAN interconnection (Figure 2-1).  
LAN  
ROUTER  
LAN  
ROUTER  
NETWORK  
DSU/CSU  
DSU/CSU  
496-15218  
Figure 2-1. Point-to-Point Application Example  
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Installation  
PBX  
NETWORK  
SERVICES  
DSU/CSU  
LAN  
ROUTER  
496-15219  
Figure 2-2. Shared Access Application Example  
LAN  
ROUTER  
LAN  
ROUTER  
DSU/CSU  
FRACTIONAL  
NETWORK  
DSU/CSU  
LAN  
ROUTER  
LAN  
ROUTER  
DSU/CSU  
496-15220  
Figure 2-3. Fractional T1 Application Example  
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Installation  
SNMP or Telnet Connection Examples  
The DSU/CSU can be connected to an SNMP or Telnet system in a number of  
ways. Some examples include:  
H
H
H
Directly connecting the COM port to the SNMP or Telnet device (Figure 2-4).  
Connecting the COM port to a network device (e.g., a router) (Figure 2-5).  
Connecting the COM port or the AUX port to an external LAN Adapter for  
H
H
Daisy chaining the COM port of one device to the AUX port of the other  
Remotely accessing the DSU/CSU through the Facility Data Link (FDL) or the  
ETHERNET  
DSU/CSU  
LAN  
ROUTER  
NETWORK  
PPP/SLIP  
496-15221  
Figure 2-4. Direct Connection  
ETHERNET  
DSU/CSU  
LAN  
ROUTER  
NETWORK  
PPP/SLIP  
496-15222  
Figure 2-5. Connection through a Router  
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Installation  
DSU/CSU  
ETHERNET  
LAN  
ROUTER  
NETWORK  
PPP  
LAN  
ADAPTER  
496-15223  
Figure 2-6. Connection through a LAN Adapter  
DSU/CSU  
PPP  
DSU/CSU  
DSU/CSU  
NETWORK  
PPP  
ETHERNET  
LAN  
ROUTER  
PPP  
LAN  
ADAPTER  
496-15224  
Figure 2-7. LAN Adapter and Daisy Chaining  
DSU/CSU  
DSU/CSU  
ETHERNET  
LAN  
ROUTER  
NETWORK  
FDL/EDL  
PPP  
LAN  
ADAPTER  
496-15225  
Figure 2-8. Remote Access through FDL/EDL  
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Installation  
Important Instructions  
Read and follow all warning notices and instructions marked on the DSU/CSU or  
included in this guide.  
Instructions section at the beginning of this guide.  
Cabling Examples  
The DSU/CSU is supplied with an ac power module.  
Figure 2-9 illustrates some cabling examples.  
NETWORK  
COM  
PORT  
NETWORK  
PORT  
COM  
PORT  
NETWORK  
PORT  
PORT 2  
EXT. CLOCK  
PORT 2  
EXT. CLOCK  
3162  
DSU/CSU  
3162  
DSU/CSU  
PORT 1  
DSX-1  
PORT 1  
DSX-1  
POWER  
POWER  
NEC  
NEC  
AUX  
COM  
NETWORK  
AUX  
COM  
NETWORK  
CLASS 2  
INPUT  
CLASS 2  
INPUT  
CAUTION:AUX PORT OR COM PORT MUST NOT BE CONNECTED TO PSTN OR T1 NETWORK  
CAUTION:AUX PORT OR COM PORT MUST NOT BE CONNECTED TO PSTN OR T1 NETWORK  
POWER  
POWER  
OR  
OR  
TERMINAL  
SNMP  
MANAGER  
TERMINAL  
496-15011  
Figure 2-9. Cabling Examples  
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Installation  
Power-Up Self-Test  
After you connect the DSU/CSU to a power source, the unit performs the  
power-up self-test to ensure that it is in good working order. The DSU/CSU  
performs this test on itself upon power-up or after a device reset, unless it has  
been disabled by the Self-Test configuration option (see Appendix C,  
The self-test includes a basic processor test, a limited memory test, a code  
checksum test, and basic verification tests of the internal components.  
" Procedure  
The power-up self-test consists of the following steps:  
1. Once the DSU/CSU is plugged in, the Fail LED blinks ON and Off  
continuously.  
2. All the LEDs then start to flash simultaneously in the pattern twice ON, then  
Off.  
3. If the self-test is successful, the Fail LED turns Off and the OK LED lights.  
If the self-test fails, the Fail LED lights. The DSU/CSU continues to try to  
operate. If you are in doubt about the results of the self-test, use the System  
Results in Chapter 4, Maintenance).  
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Operation  
3
Overview  
This chapter contains information for operating your DSU/CSU. It includes a  
description of the front panel LEDs and sample procedures to help you become  
familiar with the use of the asynchronous terminal for DSU/CSU control.  
Front Panel LEDs  
There are twelve LEDs on the DSU/CSU front panel. The five LEDs on the right  
(Figure 3-1) are shared between the DTE Drop/Insert (DSX-1) interface and the  
choose which port’s status the LEDs display (see Menu Organization on  
page 3-7).  
Figure 3-1. DSU/CSU LEDs  
A green LED indicates normal operation. A yellow LED indicates a warning (for  
the DTE Drop/Insert interface) or activity (for the data ports). Conditions are  
sampled every tenth of a second.  
The twelve front panel LEDs are grouped into four sections to indicate the status  
of the:  
H
H
H
H
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Operation  
Table 3-1. System LEDs  
Name  
Color  
Meaning  
OK  
Green  
Indicates the current operational state of the DSU/CSU.  
ON:  
The DSU/CSU is operational and has power.  
OFF:  
The DSU/CSU is performing a power-up self-test  
or a system failure has occurred.  
BLINKING: A software download is in progress.  
FAIL  
Yellow  
Yellow  
Indicates a system failure or a self-test.  
ON:  
A device error/fault is detected or a reset has just  
occurred.  
OFF:  
No system failures are detected.  
BLINKING: A self-test is in progress.  
TEST  
A system test is in progress.  
ON:  
A loopback or pattern test has been initiated  
either locally, by the network, or externally.  
OFF:  
No tests are active.  
Table 3-2. Network Interface LEDs  
Name Color Meaning  
SIG  
Green Monitors the signal being received from the network.  
ON:  
A recoverable signal is being received from the  
network.  
OFF:  
The signal cannot be recovered from the network  
(a Loss of Signal condition exists).  
OOF  
Yellow Monitors Out Of Frame (OOF) conditions on the received network  
signal.  
ON:  
At least one OOF was detected on the signal during the  
sampling period.  
OFF:  
No OOFs were detected on the signal during the  
sampling period.  
ALRM Yellow Indicates whether an alarm condition exists on the received network  
signal.  
ON:  
An alarm condition (LOS, LOF, EER, Yellow, AIS)  
exists on the received network signal. Use the System  
and Test Status screen to determine the alarm type.  
OFF:  
No alarm condition exists on the network interface  
signal.  
EER  
Yellow Indicates the Excessive Error Rate (EER) has been exceeded on the  
network interface.  
NOTE: This LED is only valid when ESF framing is being used.  
ON:  
The EER has been exceeded on the network  
interface.  
OFF:  
The EER has not been exceeded on the network  
interface.  
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Operation  
Table 3-3. DTE Drop/Insert (DSX-1) Interface LEDs  
Name  
Color  
Meaning  
SIG  
Green  
Monitors the signal being received from the DTE Drop/Insert  
(DSX-1) interface.  
ON:  
A recoverable signal is being received from the  
DTE Drop/Insert (DSX-1) interface.  
OFF:  
The signal cannot be recovered from the DTE  
Drop/Insert (DSX-1) interface (a Loss of Signal  
condition exists).  
OOF  
Yellow  
Yellow  
Monitors Out Of Frame (OOF) conditions on the received DTE  
Drop/Insert (DSX-1) signal.  
ON:  
At least one OOF was detected on the signal  
during the sampling period.  
OFF:  
No OOFs were detected on the signal during the  
sampling period.  
ALRM  
Indicates whether an alarm condition exists on the received DTE  
Drop/Insert (DSX-1) signal.  
ON:  
An alarm condition (LOS, LOF, EER, Yellow, AIS)  
exists on the received DTE Drop/Insert (DSX-1)  
signal. Use the Device Health and Status  
command to determine the alarm type.  
OFF:  
No alarm condition exists on the DTE Drop/Insert  
(DSX-1) interface signal.  
PDV  
Yellow  
Monitors Pulse Density Violations (PDV) on the received DTE  
Drop/Insert (DSX-1) signal.  
ON:  
At least one PDV was detected (and corrected)  
on the received DTE Drop/Insert (DSX-1) signal  
during the sampling period.  
OFF:  
No PDVs were detected on the received DTE  
Drop/Insert (DSX-1) signal during the sampling  
period.  
BPV  
Yellow  
Monitors Bipolar Violations (BPV) on the received DTE  
Drop/Insert (DSX-1) signal.  
ON:  
At least one BPV was detected (and corrected)  
on the received DTE Drop/Insert (DSX-1) signal  
during the sampling period.  
OFF:  
No BPVs were detected on the received DTE  
Drop/Insert (DSX-1) signal during the sampling  
period.  
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Operation  
Table 3-4. Data Port LEDs  
Name  
Color  
Meaning  
DTR  
Green  
Monitors the state of interchange circuit CD (CCITT 108/1, /2) –  
Data Terminal Ready received from the synchronous data DTE.  
ON:  
DTR is being asserted by the synchronous data  
DTE.  
OFF:  
DTR is not being asserted.  
TXD  
Yellow  
Monitors activity on interchange circuit BA (CCITT 103) –  
Transmitted Data. This is the data sent from the synchronous  
data DTE to the data port on the DSU/CSU.  
ON:  
Ones are being received from the synchronous  
data DTE.  
OFF:  
Zeros are being received from the synchronous  
data DTE.  
CYCLING: Both ones and zeros are being received from the  
synchronous data DTE.  
RXD  
Yellow  
Monitors activity on interchange circuit BB (CCITT 104) –  
Received Data. This is data sent to the synchronous data DTE  
from the data port on the DSU/CSU.  
ON:  
Ones are being sent to the synchronous data  
DTE.  
OFF:  
Zeros are being sent to the synchronous data  
DTE.  
CYCLING: Both ones and zeros are being sent to the  
synchronous data DTE.  
CTS  
RTS  
Yellow  
Yellow  
Monitors the state of interchange circuit CB (CCITT 106) –  
Clear-to-Send sent to the synchronous data DTE.  
ON:  
CTS is being asserted by the DSU/CSU.  
CTS is not being asserted.  
OFF:  
Monitors the state of interchange circuit CA (CCITT 105) –  
Request-to-Send received from the synchronous data DTE.  
ON:  
RTS is being asserted by the synchronous data  
DTE.  
OFF:  
RTS is not being asserted.  
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Operation  
Initiating an Asynchronous Terminal Session  
You can configure and manage the DSU/CSU from an asynchronous terminal  
that is configured for 9.6 kbps, 8 characters, no parity, and 1 stop bit.  
You can connect the asynchronous terminal directly to the COM port of the  
DSU/CSU, or you can establish a remote connection using dial-in or Telnet  
access.  
Once the appropriate access is established, the Main Menu screen (Figure 3-2)  
appears (unless a password is required).  
If a password is required, the Login screen displays the prompt for password  
To move between the Screen area and the Screen Function Keys area  
From the Screen area, you may select the Status, Test, Configuration, or  
Control branches.  
Ending an Asynchronous Terminal Session  
To end the asynchronous terminal session from any screen, press Ctrl-a to move  
from the Screen area to the Screen Function Keys area (Figure 3-2), and then  
select Exit.  
main  
Customer ID: Node A  
Slot: xx  
Model: 3162  
MAIN MENU  
Status  
Test  
Configuration  
Control  
Screen  
Area  
Screen  
Function  
Keys  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions  
Exit  
Area  
Figure 3-2. Main Menu Screen  
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Operation  
Recovering Asynchronous Terminal Operation  
If the DSU/CSU is misconfigured, leaving it in a state that does not support  
asynchronous terminal operation, use the following recovery procedure.  
" Procedure  
1. Power cycle the DSU/CSU, waiting for the completion of the power-up  
self-test.  
2. Press the asynchronous terminal’s Return key five times in succession.  
(Begin pressing the Return key within two seconds after the completion of  
power-up self-test, and do not wait longer than one second between each  
successive key press.)  
3. The System Paused screen appears. Use it to reset the COM port  
configuration options or to reload all factory default configuration options.  
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Operation  
Menu Organization  
Figure 3-3 shows the organization of the asynchronous terminal menu tree.  
Main  
Status  
Test  
Configuration  
Control  
Call  
Directories  
Select  
Monitor Jack  
Select  
LEDs  
Administer  
Password  
Reset  
Device  
Cross Connect  
Status  
Display  
LEDs  
Performance  
Statistics  
Identity  
Call  
Setup  
Customer ID  
System and  
Test Status  
Start  
Download  
DTE Channel  
Display  
Device  
Tests  
Sync Data  
Network &  
DTE Tests  
Network  
Channel  
Display  
Port  
Assignment  
Display  
Abort  
Tests  
Port Tests  
Configuration  
Edit/Display  
Sync Data  
Port  
Network  
Clear  
Statistics  
Network  
DTE  
Sync Data  
Ports  
Copy  
Ports  
Cross  
Connect  
General  
User  
Alarms Management  
Options Interface & Traps  
and  
Communication  
DTE to  
Network  
Sync Data  
Port  
Clear  
Assignments  
Assignments Assignments  
Telnet  
Sessions  
Auxiliary  
Port  
Communication External  
Port  
Device  
Communication General SNMP  
Protocol Management  
SNMP NMS  
Security  
SNMP  
Traps  
496-15013  
Figure 3-3. Menu Organization  
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Operation  
Using Asynchronous Terminal Screens  
There are three types of asynchronous terminal screens.  
H
H
Menu screens list selections available through the menu system.  
Input screens allow you to edit or change information on a screen using  
H
Display screens show the results from a data collection operation or they  
display device-specific information.  
The asynchronous terminal supports character matching for entering values in  
fields. For example, if the values for a field can be DTE, NET, or PORT and you  
enter a D and press Return (Enter), then the field automatically populates with  
the value DTE.  
Once an operation is initiated, status messages appear in the last row of the  
screen. These include Please Wait(when a command takes longer than five  
seconds) and Command Complete.  
Table 3-5. Screen Function Keys  
Screen Function Key  
M (MainMenu)  
E (Exit)  
Usage  
Returns to the Main Menu screen.  
Terminates the asynchronous terminal session.  
Updates the screen with the current information.  
Pages up to the previously displayed page of information.  
R (Refresh)  
U (PgUp)  
D (PgDn)  
Pages down to the previously displayed page of  
information.  
S (Save)  
Stores changes in nonvolatile memory.  
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Operation  
Table 3-6. Keyboard Keys  
Keyboard Key  
Ctrl-a  
Usage  
Moves the cursor between the Screen area and the  
Screen Function Keys area.  
Esc  
Returns to the previous screen.  
Moves the cursor to the next field.  
Moves the cursor to the previous field.  
Tab  
Back (Shift) Tab or Ctrl-k  
Backspace  
Moves the cursor one position to the left or to the last  
character of the previous field.  
Spacebar  
Selects the next valid value for the field.  
Deletes the character that the cursor is on.  
Delete  
Up Arrow key or Ctrl-u  
Moves the cursor up one field within a column on the  
same screen.  
Down Arrow key or Ctrl-d  
Moves the cursor down one field within a column on the  
same screen.  
Right Arrow key or Ctrl-f  
Left Arrow key or Ctrl-b  
Ctrl-l  
Moves the cursor back one character to the right.  
Moves the cursor back one character to the left.  
Redraws the screen display.  
Return (Enter)  
Accepts entry.  
NOTE:  
Some Telnet applications may require the use of Ctrl-u, Ctrl-d, Ctrl-f, and  
Ctrl-b as an alternative to the use of the Up, Down, Right, and Left Arrow  
keys.  
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Operation  
NOTE:  
The following procedures are examples only. This chapter uses examples to  
help you become familiar with the use of the asynchronous terminal for  
DSU/CSU control.  
Setting Customer Identification  
The customer identification is used to uniquely identify the DSU/CSU.  
" Procedure  
To change the customer identification (Customer ID):  
1. From the Main Menu screen, select Control.  
2. From the Control screen, select Customer ID.  
The Customer ID screen appears (Figure 3-4).  
3. Use the Customer ID field to set the customer identification.  
The customer identification may be up to 8 characters long.  
Select Clear to remove all the characters in the associated field.  
4. Select Save to store the information in nonvolatile memory.  
In addition to the customer identification, you may also enter a system name,  
system location, and system contact. Although only 40 characters are displayed  
for these fields, you may enter up to 255 characters. The fields scroll as the  
additional characters are added.  
main/control/customer id  
Customer ID: Node A  
Slot: xx  
Customer  
Identification  
Field  
Model: 3162  
CUSTOMER ID  
Customer ID:  
System Name:  
System Location:  
System Contact:  
Clear  
Clear  
Clear  
Clear  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save  
MainMenu  
Exit  
Figure 3-4. Customer Identification Screen  
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Operation  
Displaying LED Conditions  
The same conditions monitored by the front panel LEDs can also be monitored  
by the Display LEDs screen. This screen is most useful when the DSU/CSU is  
being accessed remotely.  
" Procedure  
To display LED conditions:  
1. From the Main Menu screen, select Status.  
2. From the Status screen, select Display LEDs.  
The Display LEDs screen appears (Figure 3-5).  
The screen shows a snapshot of the LEDs every 5 seconds. LEDs that are  
illuminated are displayed by inverse video.  
Select Refresh to update the screen.  
main/status/leds  
Customer ID: Node A  
Slot: xx  
Model: 3162  
DISPLAY LEDs  
GENERAL  
NETWORK  
DTE  
PORT 1 PORT 2  
OK  
Fail  
Test  
Sig  
OOF  
Alm  
EER  
Sig  
OOF  
Alm  
PDV  
BPV  
DTR  
TXD  
RXD  
CTS  
RTS  
DTR  
TXD  
RXD  
CTS  
RTS  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Refresh  
MainMenu  
Exit  
Figure 3-5. Example of Display LEDs Screen  
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Operation  
Changing Configuration Options  
The DSU/CSU is an intelligent device that displays only valid options for the  
current configuration. Therefore, you are only presented with menu choices that  
are consistent with the current configuration and operational state of the  
DSU/CSU; invalid combinations of configuration options do not appear. For  
example, if the DTE Drop/Insert (DSX-1) interface selection is disabled, many of  
the menu choices do not appear.  
The DSU/CSU offers configuration options located in the following memory areas:  
H
Current. This is the configuration option set currently active for the DSU/CSU  
is stored here. Before a configuration option set becomes active for the  
DSU/CSU, you must save the set to the Current area. When the DSU/CSU is  
shipped from the factory, the Current configuration option set is identical to  
the Default Factory set. This area can be written to and controls the current  
operation of the device.  
H
H
H
Customer 1. This is the first of two sets of customer-defined configuration  
options. This area can be written to.  
Customer 2. This is the second of two sets of customer-defined configuration  
options. This area can be written to.  
Default Factory 1. This is a set of configuration options preset at the factory.  
This set is determined by what is considered to be the most common  
configuration used in the DSU/CSU market. Default Factory 1 options are  
read-only.  
H
Default Factory 2. This is a set of configuration options preset at the factory.  
This set is determined by what is considered to be the second most common  
configuration used in the DSU/CSU market. Default Factory 2 options are  
read-only.  
a list of the configuration options and defaults.  
The DSU/CSU arrives with two preset factory default configuration settings.  
These settings are based on the following:  
H
Default Factory 1 – ESF framing format with B8ZS line coding format for  
both the network and the DTE Drop/Insert (DSX-1) interfaces. Data ports are  
unassigned.  
H
Default Factory 2 – D4 framing format with AMI line coding format for both  
the network and the DTE Drop/Insert (DSX-1) interfaces. Data ports are  
unassigned.  
If neither of the factory default settings support your network’s configuration, you  
can customize the configuration options to better suit your application.  
Use the Configuration branch of the menu tree to display or change DSU/CSU  
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Operation  
Displaying or Editing Configuration Options  
" Procedure  
To display or edit configuration options:  
1. From the Main Menu screen, select Configuration.  
The Load Configuration From screen appears (Figure 3-6).  
2. From the Load Configuration From screen, select a configuration option set  
to load (Current, Customer 1, Customer 2, Default Factory 1, or Default  
Factory 2). You cannot edit the Default Factory configuration options, but you  
can display them.  
After selecting the set of configuration options to load, the Configuration  
3. Select a functional group to display or edit.  
NOTE:  
Screen displays may vary depending on the configuration of the  
DSU/CSU.  
main/config  
Customer ID: Node A  
Slot: xx  
Model: 3162  
LOAD CONFIGURATION FROM:  
Current Configuration  
Customer Configuration 1  
Customer Configuration 2  
Default Factory Configuration 1  
Default Factory Configuration 2  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
MainMenu  
Exit  
Figure 3-6. Configuration Load Screen  
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Operation  
main/config/edit  
Customer ID: Node A  
Slot: xx  
Model: 3162  
CONFIGURATION EDIT/DISPLAY  
Network  
DTE  
Sync Data Ports  
Copy Ports  
Cross Connect  
General Options  
User Interface  
Alarms & Traps  
Management and Communication  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save  
MainMenu  
Exit  
Figure 3-7. Configuration Edit/Display Screen  
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Operation  
Saving Edit Changes  
" Procedure  
To save edit changes:  
1. From the last edit screen, select Save.  
The Save Configuration To screen appears (Figure 3-8).  
2. From the Save Configuration To screen, select a configuration option set  
(Current, Customer 1, or Customer 2).  
Save edit changes to the Current area when you want those changes to take  
effect immediately. Save edit changes to the Customer area when you want to  
overwrite the existing Customer configuration options and store these changes  
for future use.  
To protect you from accidentally exiting an edit session before saving your  
changes, the system displays the Save Changes?prompt if you select either  
MainMenu or Exit from an edit screen. If you respond No, the system exits  
without saving the changes. If you respond Yes, you are prompted to specify  
where the changes should be saved.  
main/config/save  
Customer ID: Node A  
Slot: xx  
Model: 3162  
SAVE CONFIGURATION TO:  
Current Configuration  
Customer Configuration 1  
Customer Configuration 2  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
MainMenu  
Exit  
Figure 3-8. Configuration Save Screen  
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Operation  
Configuring the DSU/CSU for SNMP or Telnet  
Access  
To configure the DSU/CSU for SNMP or Telnet access,  
H
H
H
H
H
Enable the SNMP agent or Telnet server within the DSU/CSU (see  
Select and configure the port that provides the link to the SNMP or Telnet  
system.  
Set the Internet Protocol (IP) address and subnet mask needed to access the  
Select the link layer protocol (PPP or SLIP) for the port that provides the link  
to the SNMP or Telnet system.  
For SNMP links, specify the two community names (and their access levels)  
that are allowed to access the device’s Management Information Base (MIB)  
(see Appendix C, Configuration Options).  
H
H
For SNMP links, configure the device to send traps to the SNMP manager, if  
Chapter 4, Maintenance).  
Specify the Telnet password or SNMP validation options, if desired (see  
Configuration Examples  
NOTE:  
The following procedures are examples only. This chapter uses examples to  
help you become familiar with the use of the asynchronous terminal for  
DSU/CSU control.  
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Operation  
Selecting the Port  
The SNMP manager, Telnet device, or network device (e.g., a router) can be  
directly connected to the COM port. An external LAN Adapter can be connected  
to either the COM port or the auxiliary (AUX) port to provide Ethernet or Token  
Ring connectivity. Also, the DSU/CSU can be daisy chained together by  
connecting the COM port of one device to the AUX port of the other, providing  
SNMP or Telnet connectivity.  
The COM port can support either synchronous or asynchronous PPP, or  
asynchronous SLIP at data rates of up to 38,400 bps. The AUX port can support  
data rates up to 38,400 bps.  
The following procedure is an example only. It assumes that the COM port is  
being used as the link to the SNMP or Telnet system.  
" Procedure  
To select the COM port as the SNMP or Telnet link:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select User Interface.  
4. From the User Interface screen, select Communication Port.  
5. In the Port Use field, enter Mgmt (Figure 3-9).  
6. When you are through making configuration option changes, select Save to  
store these changes in nonvolatile memory. If you want to return to the User  
Interface screen, press your Esc key and then save your changes from that  
screen.  
main/config/user/com  
Customer ID: Node A  
Slot: xx  
Model: 3162  
Port Use  
Field  
COMMUNICATION PORT OPTIONS  
Port Use:  
Mgmt  
Port Type:  
Clock:  
Data Rate (Kbps):  
Synchronous  
Internal  
9.6  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save  
MainMenu  
Exit  
Figure 3-9. Configuration Save Screen  
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Operation  
Setting the IP Address  
The IP address is the address used by the SNMP or Telnet system to access the  
using PPP, the IP address can be negotiated if the network device (e.g., router or  
SNMP manager) supports such negotiation. The IP address is composed of four  
fields with three digits per field (xxx.xxx.xxx.xxx).  
The IP address is set for the COM port or the AUX port (with LAN Adapter or  
daisy chain), depending on which one has been chosen as the SNMP or Telnet  
communications link. The example below assumes that an IP address of  
010.155.111.222 is being set for the COM port. You can use the same principles  
to assign any value (between 000 and 255 for each digit field) to other ports.  
" Procedure  
To assign an IP address to the COM port:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select Management and  
Communication.  
4. From the Management and Communication screen, select Communication  
Protocol.  
5. In the Communication Port’s IP Address field, enter the IP address for the  
COM port. Enter the subnet mask under this.  
6. When you are through making configuration option changes, select Save to  
store these changes in nonvolatile memory. If you want to return to the User  
Interface screen, press your Esc key and then save your changes from that  
screen.  
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Operation  
Selecting the Link Layer Protocol  
Two link layer protocols, Point-to-Point Protocol (PPP) and Serial Line Internet  
Protocol (SLIP), are supported for connection to an external SNMP manager,  
Telnet device, or network device (e.g., a router). PPP can be used for  
synchronous or asynchronous operation. SLIP can be used for asynchronous  
operation only.  
The DSU/CSU implementation of PPP supports the following:  
H
H
H
Full negotiation of PPP’s Link Control Protocol (LCP).  
Active negotiation of LCP when the connection is established.  
Maximum Request Unit (MRU) sizes up to 1500 bytes, but the DSU/CSU will  
attempt to negotiate down to 500 bytes.  
H
H
The DSU/CSU provides a unique LCP magic number derived from the unit  
serial number and the elapsed time.  
Full negotiation of escape characters.  
The DSU/CSU implementation of PPP does not support Link Quality Reports  
(LQR), compression, encryption, Password Authentication Protocol (PAP) or  
Challenge Handshake Authentication Protocol (CHAP).  
The DSU/CSU implementation of SLIP supports a fixed MRU size of 1006 bytes.  
Before selecting the protocol, you must first select the port to be used as the  
assumes that the COM port is being used as the communications link.  
" Procedure  
To select the link layer protocol:  
1. Select the Communication Protocol Options screen using the procedure  
described in the previous section, Setting the IP Address.  
2. In the Communication Port’s Com Link Protocol field, enter PPP or SLIP.  
3. When you are through making configuration option changes, select Save to  
store these changes in nonvolatile memory. If you want to return to the User  
Interface screen, press your Esc key and then save your changes from that  
screen.  
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Operation  
Configuring DS0 Channels  
The DSU/CSU provides Cross Connect configuration options that allow you to do  
the following:  
H
H
H
Display the DS0 assignments for the network, DTE Drop/Insert (DSX-1), and  
data port interfaces.  
Allocate DS0 channels on the DTE Drop/Insert (DSX-1) interface to the  
network interface.  
Allocate DS0 channels on the network or DTE Drop/Insert (DSX-1) interface  
to particular data ports.  
H
H
Map data from one port to another.  
Clear (deallocate) all DS0 channels from the network, DTE Drop/Insert  
(DSX-1), or data port interface.  
To allocate DS0 channels, begin by defining the logical channel configuration for  
the network interface, and then the DTE Drop/Insert (DSX-1) interface, and then  
a channel configuration.  
Blank configuration worksheets are provided at the back of Appendix C,  
procedures in this section. Figure 3-11 and Figure 3-12 are provided as an  
NOTE:  
The procedures in this section are examples only. Screen displays may vary  
depending on the configuration of the DSU/CSU. For example, the DTE  
Drop/Insert (DSX-1) interface is not displayed if this interface is disabled.  
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Operation  
DTE DROP/INSERT  
(DSX-1) INTERFACE  
D1  
D2  
NETWORK  
INTERFACE  
D3  
N1  
D4  
N2  
D5  
N3  
D6  
N4  
D7  
N5  
D8  
N6  
D9  
N7  
D10  
D11  
D12  
D13  
D14  
D15  
D16  
D17  
D18  
D19  
D20  
D21  
D22  
D23  
D24  
N8  
N9  
N10  
N11  
N12  
N13  
N14  
N15  
N16  
N17  
N18  
N19  
N20  
N21  
N22  
N23  
N24  
PORTS  
PRT 1  
PRT 2  
496-15016  
Figure 3-10. Example of Channel Allocation  
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Operation  
Network Interface  
Network Channel  
Allocation  
N1  
D1  
D2  
D3  
D4  
D5  
N2  
N3  
N4  
N5  
N6  
N7  
N8  
N9  
D9  
N10  
N11  
N12  
N13  
N14  
N15  
N16  
N17  
N18  
N19  
N20  
N21  
N22  
N23  
N24  
Allocations  
D10  
D11  
D12  
D15  
Prt1  
Prt1  
Prt1  
Prt2  
Prt2  
Prt2  
Prt2  
Prt2  
Prt2  
D1 – D24 indicates allocation to DTE Drop/Insert (DSX-1) channels.  
Prt1 – Prt2 indicates allocation to synchronous data ports.  
Figure 3-11. Example of Network Interface Worksheet  
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Operation  
DTE Drop/Insert (DSX-1) Interface  
DTE (DSX-1) Channel Allocation  
D1  
N1  
N2  
N3  
N4  
N5  
D2  
D3  
D4  
D5  
D6  
D7  
D8  
D9  
N9  
D10  
D11  
D12  
D13  
D14  
D15  
D16  
D17  
D18  
D19  
D20  
D21  
D22  
D23  
D24  
Allocations  
N10  
N11  
N12  
N13  
N1 – N24 indicates allocation to network channels.  
Figure 3-12. Example of DTE Drop/Insert Interface Worksheet  
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Operation  
Displaying DS0 Channel Assignments  
Use the DTE to Network Assignments screen (in the Cross Connect branch) to  
view how the DS0 channels are currently allocated. DS0 designations used on  
this screen are shown in Table 3-7.  
Table 3-7. DTE to Network DS0 Designations  
Designation  
Available  
Assigned  
Nnn  
Meaning  
The DS0 channel is not allocated.  
The DS0 channel is allocated to one of the data ports.  
The DS0 channel is allocated to the network interface DS0  
channel nn, where nn can be any number from 01 through  
24.  
DTEnn  
The DS0 channel is allocated to the DTE Drop/Insert  
(DSX-1) interface DS0 channel nn, where nn can be any  
number from 01 through 24.  
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Operation  
" Procedure  
To display the DS0 channel allocation:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select Cross Connect.  
4. From the Cross Connect screen, select DTE To Network Assignments.  
The DTE to Network Assignments screen appears (Figure 3-13).  
5. To view specific port assignments on the Network Channel Display screen,  
select NetChan at the bottom of the DTE to Network Assignments screen.  
main/config/cross_connect/dte  
Customer ID: Node A  
Slot: xx  
Model: 3162  
DTE (DSX-1) TO NETWORK ASSIGNMENTS  
N01  
N02  
N03  
N04  
N05  
N06  
N07  
N08  
DTE01  
DTE02  
DTE03  
DTE04  
DTE05  
Available Available Available  
N09  
N10  
N11  
N12  
N13  
N14  
N15  
N16  
DTE09  
DTE10  
DTE11  
DTE12  
DTE15  
Assigned Assigned Assigned  
N17  
N18  
N19  
N20  
N21  
N22  
N23  
N24  
Available Assigned Assigned Assigned Assigned Assigned Assigned Available  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save NetChan DTEChan PtAssign  
MainMenu  
Exit  
NetChan  
Selection  
Figure 3-13. Example of DTE Drop/Insert Interface Worksheet  
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Operation  
Allocating DS0 Channels from the DTE Drop/Insert Interface to the  
Network Interface  
" Procedure  
To allocate DS0 channels from the DTE Drop/Insert (DSX-1) interface to the  
network interface:  
1. From the Main Menu screen, select Configuration.  
The Load Configuration From screen appears.  
2. From the Load Configuration From screen, select Current.  
The Configuration Edit/Display screen appears.  
3. From the Configuration Edit/Display screen, select Cross Connect.  
The Cross Connect screen appears.  
4. From the Cross Connect screen, select DTE To Network Assignments.  
The DTE to Network Assignments screen appears (Figure 3-14).  
5. Assign the DS0 channels from the DTE Drop/Insert (DSX-1) interface to the  
(DSX-1) DS0 channel 01 is assigned to the network DS0 channel 01.  
6. Select Save to store these settings in nonvolatile memory.  
main/config/cross_connect/dte  
Customer ID: Node A  
Slot: xx  
Model: 3162  
DTE to  
Network  
Assignment  
DTE (DSX-1) TO NETWORK ASSIGNMENTS  
N01  
N02  
N03  
N04  
N05  
N06  
N07  
N08  
DTE01  
Available Available Available Available Available Available Available  
N09  
N10  
N11  
N12  
N13  
N14  
N15  
N16  
Available Available Available Available Available Assigned Assigned Assigned  
N17 N18 N19 N20 N21 N22 N23 N24  
Available Assigned Assigned Assigned Assigned Assigned Assigned Available  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save NetChan DTEChan PtAssign  
MainMenu  
Exit  
Figure 3-14. Making DTE to Network Assignments  
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Operation  
Configuring DS0 Channels for Robbed Bit Signaling  
By using the DTE configuration options, you can specify which DS0 channels  
carry Robbed Bit Signaling (RBS) information for voice channels.  
" Procedure  
To specify DTE Drop/Insert (DSX-1) channels used to carry voice information:  
1. From the Main Menu screen, select Configuration.  
The Load Configuration From screen appears.  
2. From the Load Configuration From screen, select Current.  
The Configuration Edit/Display screen appears.  
3. From the Configuration Edit/Display screen, select DTE.  
The DTE Interface Options screen appears (Figure 3-15).  
4. Enter RBS for each DS0 channel that you want to configure for voice  
applications.  
The designation None indicates the absence of RBS information. These  
channels (known as Clear Channels) are used for data applications.  
5. Select Save to store these settings in nonvolatile memory.  
main/config/dte  
Customer ID: Node A  
Slot: xx  
Model: 3162  
DTE INTERFACE OPTIONS  
Interface Status:  
Enable  
ESF  
Line Framing Format:  
Line Coding Format:  
B8ZS  
Line Equalization:  
DTE LB on External Contact:  
Send all Ones on DTE Failure:  
0-133  
Disable  
Enable  
DTE  
Signaling:D01  
D02  
None  
D03  
None  
D04  
None  
D05  
None  
D06  
None  
D07  
None  
D08  
None  
Configured  
for RBS  
None  
D09  
RBS  
D10  
None  
D11  
None  
D12  
None  
D13  
None  
D14  
None  
D15  
None  
D16  
None  
D17  
D18  
D19  
D20  
D21  
D22  
D23  
D24  
None  
None  
None  
None  
None  
None  
None  
None  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save  
MainMenu  
Exit  
Figure 3-15. DTE to Interface Options Screen  
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Operation  
Allocating Data Ports Using the Block or ACAMI Assignment Method  
By using the block or ACAMI (Alternate Channel Alternate Block Inversion)  
assignment method, you can assign a data port to a block of contiguous DS0  
channels on either the network interface or the DTE Drop/Insert (DSX-1)  
interface.  
The block assignment method allows a block of contiguous channels to be  
assigned by specifying a data port rate and an initial DS0 channel (the first DS0  
channel in a block of DS0 channels). The number of channels assigned is  
determined by the port rate. These channels are automatically assigned to the  
destination T1 interface (Network or DTE Drop/Insert) when the initial DS0  
channel is selected.  
The ACAMI assignment method also allows a block of contiguous channels to be  
assigned, however, with ACAMI, the number of channels assigned is twice the  
number needed for the port rate. This is because with ACAMI, every alternate  
DS0 channel (starting with the n+1 DS0 channel), does not carry data from the  
port, but instead always transmits and receives all ones.  
" Procedure  
To assign data ports by the block or ACAMI method:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select Cross Connect.  
4. From the Cross Connect screen, select Sync Data Port Assignments.  
5. Use the Assign To field to specify the destination T1 interface (Network or  
DTE).  
6. Use the Assign By field to specify the assignment method (Block or ACAMI).  
7. After filling in the Port Rate field, specify a port assignment for the initial DS0  
channel in a block of contiguous, available DS0 channels.  
8. Select Save or, if you want to return to the Cross Connect screen, press your  
Esc key and then save your changes from that screen.  
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Operation  
Allocating Data Ports Using the Individual Channel Assignment  
Method  
By using the individual channel assignment method, you can assign a data port to  
individual DS0 channels on either the network interface or the DTE Drop/Insert  
(DSX-1) interface.  
This method individually selects the DS0 channels to allocate to the data port.  
The data port rate is automatically determined based on the number of channels  
selected.  
" Procedure  
To assign data ports by the individual channel method:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select Cross Connect.  
4. From the Cross Connect screen, select Sync Data Port Assignments.  
5. Use the Assign To field to specify the destination T1 interface (Network or  
DTE).  
6. Use the Assign By field to specify the assignment method (Channel).  
7. Specify the port assignments for the individual DS0 channels. The DS0  
channels do not need to be contiguous.  
The port rate increases as the port is assigned to additional DS0 channel. For  
two DS0 channels (at 64 kbps each), a port rate of 128 kbps is required.  
8. Select Save or, if you want to return to the Cross Connect screen, press your  
Esc key and then save your changes from that screen.  
Clearing DS0 Channel Allocation  
You can clear (deallocate) all the DS0 channels currently allocated to either the  
network interface, the DTE Drop/Insert (DSX-1) interface, or the synchronous  
data ports.  
" Procedure  
To clear DS0 channel allocation:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select Cross Connect.  
4. From the Cross Connect screen, select Clear Assignments.  
5. To clear all DS0 channel allocations, select Clear All. Otherwise, select the  
appropriate DS0 channel group to clear (DTE, Network, or Sync Data Ports).  
A message will appear, Are You Sure?.  
6. Enter Yes to clear the specified DS0 channels.  
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Operation  
Establishing Access Security on a Port  
Although the password feature is available, it is not required. If used, it ensures  
access security before control is passed to a device connected to a port. The  
following procedure is an example only. It shows how to enable the password for  
the communication port. Passwords can also be enabled for the internal modem  
and for Telnet sessions.  
" Procedure  
To establish access security on the communication port:  
1. From the Main Menu screen, select Configuration.  
2. From the Load Configuration From screen, select Current.  
3. From the Configuration Edit/Display screen, select User Interface.  
4. From the User Interface Options screen, select Communication Port.  
5. In the Password Required field, enter Enable.  
6. Select Save to store this setting in nonvolatile memory.  
7. From the Save Configuration To screen, select Current.  
Password.  
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Operation  
Setting a Password  
Establishing Access Security on a Port), the password itself is set. Unless you  
specify otherwise, the password is null.  
" Procedure  
To set a password:  
1. From the Main Menu screen, select Control.  
2. From the Control screen, select Administer Password.  
The Password Entry screen (Figure 3-16) is used to add a new password or  
modify an existing password.  
3. Enter a new password in the Password field.  
The password may be 1 to 8 characters long and may contain the characters  
0 through 9, a through z, and/or A through Z.  
4. Use the Re-Enter Password field to verify the new password.  
5. Select Save.  
Once a password is saved, the Login Records Savedmessage appears in  
the last row of the screen.  
main/control/admin_password  
Customer ID: Node A  
Slot: xx  
Model: 3162  
Enter New  
Password  
PASSWORD ENTRY  
Password:  
Re-Enter Password:  
Re-Enter  
Password  
Save  
Password  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions, ESC for previous menu  
Save  
MainMenu  
Exit  
Figure 3-16. Setting a Password  
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Operation  
Entering a Password to Gain Access  
When access security is required, the Login screen (Figure 3-17) appears before  
you can access the Main Menu screen. The password must be entered.  
H
H
If the password is valid, the DSU/CSU’s top-level menu appears.  
If the password is invalid, an invalid password message appears and the  
screen reappears and waits for password entry.  
H
If an invalid password is entered three consecutive times, the message User  
Interface Idleappears, Telnet sessions are closed, dial-in connections  
are disconnected, and an SNMP trap is generated.  
login  
Customer ID: Node A  
Slot: xx  
Model: 3162  
Enter  
Password  
LOGIN  
Enter Password  
––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––  
Ctrl-a to access these functions Exit  
Figure 3-17. Entering a Password  
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Operation  
Selecting the Timing Source  
The DSU/CSU provides the ability to select a master clock (timing) source that is  
used to synchronize all of the T1 and data port interfaces on the DSU/CSU. The  
clock for each interface is at the appropriate rate for that interface (e.g.,  
1.544 Mbps for the T1 interfaces, the configured port rate for the data ports), and  
it is independent of the master clock rate. This means that the master clock rate  
and the DSU/CSU interface rates may be different.  
The clock source configuration options enable you to select either the network  
interface, a synchronous data port, the internal clock, the DTE Drop/Insert  
(DSX-1) interface, or an external clock. If external clocking is selected, you must  
use the clock rate configuration option to specify the clock rate. Figure 3-18  
shows some common clocking configurations. For more information on  
NETWORK  
CLOCK: NETWORK  
CLOCK: NETWORK  
CLOCK: INTERNAL  
CLOCK: NETWORK  
CLOCK: EXTERNAL  
CLOCK: NETWORK  
CLOCK: NETWORK  
CLOCK: NETWORK  
PBX  
CLOCK: DTE DROP/INSERT (DSX-1) CONNECTOR  
TERMINAL  
EQUIPMENT  
CLOCK: PORT 1  
496-15012-01  
Figure 3-18. Common Clocking Configurations  
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Operation  
Providing Backup Capability  
If the T1 network fails, the DSU/CSU provides the ability to reconfigure the unit  
and restore (at least partially) priority data circuits through an external backup  
device.  
You can store backup configuration options in the Customer 2 set of  
customer-defined configuration options. The Enterprise MIB variable  
devConfigAreaCopy allows the entire contents of one configuration area to be  
copied into another configuration area via SNMP.  
By cross-connecting two synchronous data ports to each other, one port can  
provide a backup path for the other. As soon as the ports are configured to be  
mapped to each other, Data Set Ready (DSR) for the ports is turned on. The  
external backup device can be configured to initiate dialing when it detects the  
off-to-on transition of DSR.  
Download Operations  
NOTE:  
The Download command is for use by service personnel only. Loss of primary  
data could result from improper use.  
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Monitoring and Testing  
4
Overview  
The DSU/CSU can detect and report faults, and perform diagnostic tests. These  
features ensure that your DSU/CSU is giving you optimum performance in your  
network.  
Self-Test Results  
self-test. Possible messages are listed in Table 4-1.  
" Procedure  
To display power-up self-test results:  
1. From the Main Menu screen, select Status.  
2. From the Status screen, select System and Test Status.  
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Monitoring and Testing  
Table 4-1. Self-Test Results  
Message  
Passed  
Description  
No problems were found during power-up.  
CPU Fail  
Device Fail  
The central processing unit failed internal testing.  
One or more of the unit’s integrated circuit chips failed to pass  
internal device level testing.  
B8ZS/LOS Fail  
The unit failed to encode data properly or to detect Loss Of  
Signal.  
Network T1 Fail  
DTE T1 Fail  
The unit failed to internally loop data on the network T1 circuit.  
The unit failed to internally loop data on the DTE T1 (DSX-1)  
circuit.  
Alarm Fail  
The unit failed to transmit AIS or to detect an Yellow alarm.  
The unit failed program checksum verification.  
Memory Fail  
DSU Fail  
The unit failed to internally loop data on the DSU.  
Port’s integrated circuitry failed to pass device internal testing.  
DSU Port n Fail  
Unknown Exp Dev  
The unit is not able to recognize the expansion device connected  
to the main circuit card.  
Failure xxxxxxxx  
An 8-digit hexadecimal failure code is provided for service  
personnel.  
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Monitoring and Testing  
Device Health and Status  
Use the System and Test Status screen to display the current health and status  
messages for the DSU/CSU. Table 4-2 lists these messages in priority order.  
" Procedure  
To display health and status messages:  
1. From the Main Menu screen, select Status.  
2. From the Status screen, select System and Test Status.  
Table 4-2. Health and Status Messages (1 of 2)  
Message  
Description  
LOS at Network  
A Loss Of Signal condition (175 consecutive zeros) has been  
detected on the network interface. The condition is cleared when  
the density of ones to zeros received is 12.5%.  
LOS at DTE  
A Loss Of Signal condition (175 consecutive zeros) has been  
detected on the DTE Drop/Insert (DSX-1) interface. The condition  
is cleared when the density of ones to zeros received is 12.5%.  
OOF at Network  
OOF at DTE  
An Out Of Frame condition (2 out of 4 frame synchronization bits  
in error) has been detected on the network interface. The  
condition is cleared when a reframe occurs.  
An Out Of Frame condition has been detected on the DTE  
Drop/Insert (DSX-1) interface. The condition is cleared when a  
reframe occurs.  
AIS at Network  
AIS at DTE  
An Alarm Indication Signal (unframed all ones signal) is being  
received by the network interface.  
An Alarm Indication Signal is being received by the DTE  
Drop/Insert (DSX-1) interface.  
EER at Network  
An Excessive Error Rate condition has been detected on the  
network interface. The condition is cleared when the error rate  
falls below the threshold value.  
Yellow at Network  
Yellow at DTE  
A Yellow Alarm signal is being received by the network interface.  
A Yellow Alarm signal is being received by the DTE Drop/Insert  
(DSX-1) interface.  
Primary Clock  
Failed  
The primary clock has failed. Timing for the DSU/CSU is provided  
by the internal clock.  
OOF at Port n  
An Out Of Frame condition has been detected on data port Port n  
(where n is the port number). This condition only occurs if the  
synchronous data port’s Embedded Data Link (EDL) is enabled.  
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Monitoring and Testing  
Table 4-2. Health and Status Messages (2 of 2)  
Message  
Description  
EER at Port n  
The error rate of the received signal has exceeded the configured  
threshold for data port Port n (where n is the port number). This  
condition only occurs if the synchronous data port’s Embedded  
Data Link (EDL) is enabled. The condition is cleared when the  
error rate falls below the synchronous data port’s configured  
threshold value.  
Network Com Link  
Down  
The network communication link is in a down state. This condition  
only occurs if the COM or AUX port is configured for Mgmt, and  
communication between the management system and the  
DSU/CSU is not currently possible for this port. For the AUX port,  
this condition is detected only when a device reset or power-up  
occurs.  
Device Fail  
xxxxxxxx  
An internal error has been detected by the operating software. An  
8-digit code appears for use by service personnel. The condition  
is cleared by resetting the device.  
Download Failed  
A download attempt was interrupted and failed to complete. The  
condition is cleared by resetting the device.  
System Operational This message only appears if there are no valid alarm or status  
messages.  
Performance Reports  
Use the Performance Statistics screen to access performance reports for the  
DSU/CSU.  
When the network interface is configured for ESF operation, network  
performance is continuously monitored and maintained in two sets of aggregate  
registers: Carrier Network Interface Registers (Telco) and User Network Interface  
Registers (User). The User registers contain an extra status register (Status).  
performance data for the previous 24-hour period. Performance data is updated  
in 15-minute intervals. After 15 minutes, the current interval is rolled over into a  
set of accumulator registers that represent the previous 96 15-minute intervals for  
the register. An interval total of how many of the 96 registers contain valid data is  
also kept, as well as a 24-hour total for each accumulator register.  
Port performance is continuously monitored and maintained in memory registers  
when the port is configured to use EDL. The DSU/CSU maintains two sets of port  
registers for each synchronous data port: far-end port registers and near-end port  
registers. These registers are status registers that collect performance data for  
the previous 8-hour period. Port data is updated in 15-minute intervals. After  
15 minutes, the current interval is rolled over into a set of accumulator registers  
that represent the previous 32 15-minute intervals for the register. An interval  
total of how many of the 32 registers contain valid data is also kept, as well as a  
8-hour total for each accumulator register.  
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Monitoring and Testing  
You can reset the performance registers via the Clear Statistics selection on the  
Performance Statistics screen.  
" Procedure  
To display performance reports:  
1. From the Main Menu screen, select Status.  
2. From the Status screen, select Performance Statistics.  
3. From the Performance Statistics screen, select either Network or Sync Data  
Ports depending on the type of statistics that you want to view.  
Table 4-3. Performance Registers (1 of 3)  
Register  
Interval Description  
Totals Description  
Current  
Interval  
Timer  
This register records the number N/A  
of seconds in the current  
15-minute interval. The  
maximum is 900 seconds. This  
register is valid for the current  
interval only.  
ESF Error  
Events  
An error event is an ESF frame  
with either a Cyclic Redundancy  
Check (CRC) error or an Out Of  
Frame (OOF) event. The  
N/A  
maximum count is 65,535. This  
register is only reset as a result  
of a reset command from the  
network. This register is valid for  
the current interval only.  
Valid Interval  
Total  
N/A  
Records the number of valid  
15-minute intervals in the  
previous x hours, where x is  
24 hours for aggregate  
performance and 8 hours for  
port performance. This register  
is not valid for the current  
interval.  
ES  
The number of errored seconds The total number of errored  
for the current interval. An  
errored second is any second  
with one or more ESF error  
events. The maximum is  
900 seconds.  
seconds for the previous x  
hours, where x is 24 hours for  
aggregate performance and  
8 hours for port performance.  
UAS  
The number of unavailable  
seconds for the current interval. seconds for the previous  
The total number of unavailable  
An unavailable second is any  
one second interval when  
service is unavailable.  
(Detection occurs with  
10 consecutive unavailable  
seconds.) The maximum is  
900 seconds.  
x hours, where x is 24 hours for  
aggregate performance and  
8 hours for port performance.  
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Monitoring and Testing  
Table 4-3. Performance Registers (2 of 3)  
Register  
Interval Description  
Totals Description  
SES  
The number of severely errored The total number of severely  
seconds for the current interval. errored seconds for the previous  
A severely errored second is  
any second with 320 or more  
x hours, where x is 24 hours for  
aggregate performance and  
CRC errors, or any second with 8 hours for port performance.  
one or more OOF events. The  
maximum is 900 seconds.  
BES  
The number of bursty errored  
seconds for the current interval. errored seconds for the previous  
A bursty errored second is any x hours, where x is 24 hours for  
second with more than one, but aggregate performance and  
The total number of bursty  
less than 320, CRC errors. The  
8 hours for port performance.  
maximum is 900 seconds.  
CSS  
(Not valid for  
The number of controlled slip  
seconds for the current interval. slip seconds for the previous  
The total number of controlled  
Port registers.)  
x hours, where x is 24 hours for  
aggregate performance and  
8 hours for port performance.  
LOFC  
The loss of frame count for the  
current interval. This is a count  
of the number of times that an  
The total loss of frame count for  
the previous x hours, where x is  
24 hours for aggregate  
LOF is declared. The maximum performance and 8 hours for  
count is 255. port performance.  
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Monitoring and Testing  
Table 4-3. Performance Registers (3 of 3)  
Register  
Interval Description  
Totals Description  
Status  
(Only valid for  
User registers.)  
The status events register  
records whether one or more of  
the following events have  
occurred at least once during  
the interval. The event is  
N/A  
identified by a letter as follows:  
H Y – A Yellow Alarm signal  
has been received on the  
network interface.  
H L – Loss Of Signal has  
occurred on the DTE  
Drop/Insert (DSX-1)  
interface.  
H E – The Excessive Error  
Rate threshold has been  
exceeded.  
H F – A Frame  
Synchronization Bit Error  
has been detected.  
H V – A Bipolar Violation has  
been detected.  
H If none of these events  
occurred during the  
interval, none will be  
displayed.  
Complete  
Bad line conditions or loopback  
tests may prevent far-end port  
statistics from reaching the  
DSU/CSU. This field indicates  
whether the 15-minute interval  
contains 900 seconds of  
N/A  
(Only valid for  
far-end port  
registers.)  
statistics. If one or more  
seconds of far-end statistics are  
missing, this field will display no,  
otherwise it will display yes. This  
field is only displayed when Far  
is selected from the Prtn screen.  
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Monitoring and Testing  
Alarms  
To display or print alarm messages, you can attach the DSU/CSU, either locally  
or remotely, to an ASCII terminal or printer. Alarms can also be displayed on a PC  
that is using a terminal emulation package.  
You can route these alarms to the COM port or dial them out using an external  
device.  
Each alarm message contains a customer identification to indicate which remote  
refer to Setting Customer Identification in Chapter 3, Operation.  
Possible alarm messages are as follows:  
H Continuous Loss Of Signal detected at the x Interface  
(where x is either Network or DTE).  
H Alarm Cleared. Loss Of Signal condition at the x  
Interface(where x is either Network or DTE).  
H Continuous Out Of Frame condition detected at the x  
Interface(where x is either Network or DTE).  
H Alarm Cleared. Out Of Frame condition at the x Interface  
(where x is either Network or DTE).  
H Alarm Indication Signal received at the x Interface(where  
x is either Network or DTE).  
H Alarm Cleared. Alarm Indication Signal at the x Interface  
(where x is either Network or DTE).  
H An Excessive Error Rate has been detected at the Network  
Interface.  
H Alarm Cleared. An Excessive Error Rate at the Network  
Interface.  
H Yellow Alarm signal received at the x Interface(where x is  
either Network or DTE).  
H Alarm Cleared. Yellow Alarm signal at the x Interface  
(where x is either Network or DTE).  
H Continuous Out Of Frame condition detected at synchronous  
data port n(where n is the port number).  
H Alarm Cleared. Out Of Frame condition at synchronous data  
port n (where n is the port number).  
H An Excessive Error Rate has been detected at synchronous  
data port n (where n is the port number).  
H Alarm Cleared. An Excessive Error Rate at synchronous  
data port n (where n is the port number).  
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Monitoring and Testing  
If two alarm conditions are detected at once, the higher priority alarm is reported.  
However, if an even higher priority alarm is detected before the first alarm is  
cleared, the later alarm is not reported. (The alarms listed above are in priority  
order with the highest priority listed first.)  
Alarms remain active until the alarm condition is cleared. Also, an alarm clear  
message is only sent when there are no other alarms active.  
Configuration Options in Appendix C, Configuration Options.  
SNMP Traps  
SNMP traps are unsolicited messages that are sent from the DSU/CSU to an  
SNMP manager when the DSU/CSU detects certain pre-specified conditions.  
These traps enable the SNMP manager to monitor the state of the network.  
The SNMP Trap configuration option must be enabled for trap messages to be  
sent over the communications link. You must specify the number of SNMP  
managers that are to receive traps from this DSU/CSU, an IP address for each  
SNMP manager specified, and the type of traps to be sent from this DSU/CSU.  
Trap types consist of the following:  
H
General traps – Include warmStart and authenticationFailure. The DSU/CSU  
sends a warmStart trap after it has been reset to indicate that it has just  
reinitialized itself. The DSU/CSU sends an authenticationFailure trap when it  
has received an SNMP protocol message that has not been properly  
authenticated. These traps are enabled by the General Traps configuration  
option.  
H
H
Enterprise Specific traps – Signify that the DSU/CSU has recognized an  
traps are enabled by the Enterprise Specific Traps configuration option.  
Link Traps – Identify the condition of the communications interface, either  
linkDown (one of the communications interfaces has failed) or linkUp (one of  
the communications interfaces has just come up). These traps are enabled  
by the Link Traps configuration option. The communications interfaces for  
which these traps can be generated are specified by the Link Trap Interfaces  
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Monitoring and Testing  
Table 4-4. Enterprise-Specific Trap Definitions  
Trap Value  
Event  
enterpriseClockFail(1)  
enterpriseSelfTestFail(2)  
The currently configured primary clock source has failed.  
A DSU/CSU hardware failure is detected at self-test. This  
trap is generated after DSU/CSU initialization.  
enterpriseDeviceFail(3)  
enterpriseTestStart(5)  
An internal DSU/CSU failure is detected by the operating  
software.  
A test is initiated.  
enterpriseConfigChange(6) A configuration option is changed.  
enterpriseTestClear(105) A test is concluded.  
Table 4-5. SNMP Trap per Interface  
Interface  
Trap Meaning  
T1 Network  
Up = No alarm or test conditions.  
Down = Alarm or test conditions.  
DTE Drop/Insert (DSX-1)  
Synchronous Data Ports  
Up = No alarm or test conditions, and the interface is  
enabled.  
Down = Alarm or test conditions, or the interface is  
disabled.  
Up = No test conditions, the port is assigned to a network  
interface, and both CTS and DSR are ON.  
Down = Test conditions, the port is unassigned, or either  
CTS or DSR is off.  
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Monitoring and Testing  
Troubleshooting  
The DSU/CSU is designed to provide you with trouble-free service. However,  
Table 4-6 gives you some direction if a problem occurs.  
For problems other than those listed in the table, please contact your service  
representative.  
Table 4-6. Troubleshooting (1 of 2)  
Symptom  
Possible Cause  
Solutions  
No power  
1. The power module is not 1. Check the power module  
securely attached.  
attachment.  
2. The wall receptacle has  
no power.  
2. Check the wall  
receptacle power by  
plugging in some  
equipment that is known  
to be working.  
Power-Up Self-Test fails  
The DSU/CSU has  
detected an internal  
hardware failure.  
Contact your service  
representative.  
Message LOS at  
Network appears  
1. Network cable problem.  
1. Check that the network  
cable is securely  
attached at both ends.  
2. No signal is being  
transmitted at the  
far-end.  
2. Check the far-end status.  
3. Contact your facility  
provider.  
3. Facility problem.  
Message LOS at DTE  
appears  
1. 1.DTE Drop/Insert  
1. Check that the DTE  
Drop/Insert (DSX-1)  
cable is securely  
(DSX-1) cable problem.  
attached at both ends.  
2. No signal being  
transmitted from the  
DTE.  
2. Check the DTE status.  
Message OOF at  
Networkappears  
1. Incompatible framing  
format between the  
network and the  
DSU/CSU.  
1. Check that the framing  
format for the network  
interface is correct.  
2. Check that the network  
cable is securely  
2. Network cabling  
problem.  
attached at both ends.  
3. Facility problem.  
3. Contact your facility  
provider.  
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Monitoring and Testing  
Table 4-6. Troubleshooting (2 of 2)  
Symptom  
Possible Cause  
Solutions  
Message OOF at DTE  
appears  
1. Incompatible framing  
format between the  
Drop/Insert port on the  
customer premises  
equipment and the  
DSU/CSU.  
1. Check that the framing  
format for the DTE  
Drop/Insert (DSX-1)  
interface is correct.  
2. DTE Drop/Insert (DSX-1) 2. Check that the DTE  
cabling problem.  
Drop/Insert (DSX-1)  
cable is securely  
attached at both ends.  
Message  
Yellow at Network  
1. Network cable problem.  
1. Check that your network  
cable is securely  
appears  
attached at both ends.  
2. Far-end device has lost  
framing sync on the line.  
2. Check the status of the  
far-end device.  
3. Facility problem.  
3. Contact your facility  
provider.  
Message  
Yellow at DTEappears  
DTE has detected an LOS  
or LOF condition.  
1. Check the status of the  
DTE.  
2. Check that the DTE  
Drop/Insert (DSX-1)  
cable is securely  
attached at both ends.  
Message  
AIS at Network  
1. Upstream device is  
transmitting an AIS.  
1. Check the status of the  
upstream device(s).  
appears  
2. The network is  
2. Contact your facility  
provider.  
transmitting an AIS.  
Message  
DTE is sending an AIS.  
Check the DTE.  
AIS at DTE  
appears  
Message EER at  
Network appears  
Facility problem.  
Contact your facility  
provider.  
BPV LED is ON  
1. Incompatible line coding 1. Check that the line  
format between the DTE  
and the DSU/CSU.  
coding format for the  
DTE Drop/Insert (DSX-1)  
interface is correct.  
2. DTE Drop/Insert (DSX-1) 2. Check that the DTE  
cable problem.  
cable is securely  
attached at both ends.  
A failure message appears Internal DSU/CSU problem. Record the 8-digit code,  
followed by an 8-digit code  
(x x x x x x x x )  
then contact your service  
representative.  
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Monitoring and Testing  
Test Jacks  
functions are shown in Figure 4-2 and described in Table 4-7. The Selectable  
allows you to select either Equipment (EQPT) or Network (NET) functionality for  
the Monitor test jack.  
" Procedure  
To select either Equipment or Network for the Monitor test jack:  
1. From the Main Menu screen, select Control.  
2. From the Control screen, select Select Monitor Jack.  
3. Select either EQPT (Equipment) or NET (Network) depending on the type of  
Monitor test jack that you want to implement.  
NET MON EQPT  
In  
In  
In  
Out  
Out  
Out  
496-14808  
Figure 4-1. Test Jacks  
EQPT NET  
MON  
In  
In  
Out  
Mon Jack: EQPT  
Mon Jack: NET  
(Selectable)  
TERMINAL  
EQUIPMENT  
(DTE)  
INTERNAL  
CIRCUITRY  
LINE  
RECEIVER  
LINE  
RECEIVER  
NETWORK  
(Selectable)  
Mon Jack: EQPT  
Mon Jack: NET  
EQPT NET  
MON  
Out  
Out  
In  
496-14875  
Figure 4-2. Test Jack Block Diagram  
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Monitoring and Testing  
Table 4-7. Test Jack Functions  
Test Jack Name Function  
NET In  
(Network In)  
A break-in test jack that allows a signal to be inserted toward the  
network by external test equipment.  
NET Out  
(Network Out)  
A break-in test jack that interrupts the signal coming from the  
network and allows it to be terminated by the external test  
equipment.  
EQPT In  
(Equipment In)  
A break-in test jack that allows a signal to be inserted toward the  
terminal equipment (DTE) by external test equipment.  
EQPT Out  
(Equipment Out)  
A break-in test jack that interrupts the signal coming from the  
terminal equipment (DTE) and allows it to be terminated by the  
external test equipment.  
MON In  
(Monitor In)  
A monitor jack that is controlled by the Selectable Test Jack branch  
of the menu tree. If it is set to Equipment (the default), this jack  
monitors the signal going into the terminal equipment (DTE). If it is  
set to Network, this jack monitors the signal going into the network.  
MON Out  
(Monitor Out)  
A monitor jack that is controlled by the Selectable Test Jack branch  
of the menu tree. If it is set to Equipment (the default), this jack  
monitors the signal coming from the terminal equipment (DTE). If it  
is set to Network, this jack monitors the signal coming from the  
network.  
Test Commands  
The test commands enable you to run loopbacks and test patterns on the  
DSU/CSU, and to test the front panel LEDs. These tests can help you isolate  
areas of trouble if you are having problems with your DSU/CSU.  
access all test commands.  
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Monitoring and Testing  
Remote Loopback Tests  
The Remote Loopback tests enable you to troubleshoot your circuit by sending  
the following to a far-end device:  
For Networks  
H
H
Line loopback up activation sequence for 10 seconds (Line Loopback Up)  
Line loopback down activation sequence for 10 seconds (Line Loopback  
Down)  
For Channels  
H
H
V.54 activation sequence to initiate a V.54 Loop 2 (V.54 Loopback Up)  
V.54 deactivation sequence to terminate a V.54 Loop 2 (V.54 Loopback  
Down)  
H
H
ANSI T1.403 (Annex B) activation sequence to initiate a DCLB on the remote  
device (FT1 Loopback Up)  
ANSI T1.403 (Annex B) deactivation sequence to terminate a DCLB on the  
remote device (FT1 Loopback Down)  
You cannot perform remote loopbacks if any of the local loopbacks are active. If  
you attempt to do so, the error message Invalid Test Combination appears.  
Sending a Line Loopback Up or Down  
" Procedure  
To send a Line Loopback Up or Down sequence on the network to a far-end  
DSU/CSU:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. In the Send Line Loopback field (under Remote Loopbacks), enter either Up  
or Down depending on the type of sequence that you want to send.  
4. For the Send Line Loopback command, select Send.  
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Monitoring and Testing  
Sending a V.54 or ANSI FT1 Activation/Deactivation Sequence  
" Procedure  
To send a V.54 or ANSI FT1 activation or deactivation loopback sequence to the  
far-end DSU/CSU:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Sync Data Port Tests.  
3. In the Port field (near the top of the screen), enter either 1 or 2 depending on  
the synchronous data port that you want to test.  
4. In the Send V.54 Loopback field or the Send FT1 Loopback field (under  
Remote Loopbacks), enter either Up or Down depending on the type of  
sequence that you want to send.  
5. For the appropriate command (Send V.54 Loopback or Send FT1 Loopback),  
select Send.  
Local Loopback Tests  
The Local Loopback tests enable you to conduct circuit testing and fault isolation  
for the digital line. The supported local loopback tests are:  
NOTE:  
DLB is not available when the DTE Drop/Insert (DSX-1) interface is disabled.  
The Line Loopback test can be activated and deactivated in response to  
commands received over the network interface. The Network Initiated LLB  
configuration option controls whether the DSU/CSU responds to the commands  
Configuration Options).  
The Network Initiated DCLB configuration option controls whether the DSU/CSU  
responds to inband V.54 commands to initiate DCLB for that port (see  
Local loopback tests can be aborted (Abort Command) at any time.  
No more than two local loopbacks can be active at any one time. An additional  
restriction prohibits certain loopbacks from running at the same time. Valid  
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Monitoring and Testing  
Table 4-8. Valid Loopback Combinations  
LLB  
N/A  
NO  
PLB  
NO  
DLB  
YES  
YES  
N/A  
RLB  
YES  
NO  
DCLB  
NO  
DTLB  
YES  
LLB  
PLB  
N/A  
YES  
NO  
NO  
YES  
YES  
YES  
NO  
NO  
YES  
NO  
YES  
DLB  
RLB  
DCLB  
NO  
N/A  
NO  
YES  
NO  
YES  
YES  
(on  
YES  
(on  
separate  
ports)  
separate  
ports)  
YES  
YES  
YES  
YES  
YES  
(on  
YES  
(on  
DTLB  
separate  
ports)  
separate  
ports)  
Starting a Line Loopback  
The Line Loopback command (LLB) loops the received signal on the network  
interface back to the network without change.  
DSU  
CSU  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
ALL  
1s  
LLB  
ALL 1s  
ALL 1s  
496-14319-02  
PORT 2 PORT 1  
" Procedure  
To perform a Line loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. For the Line Loopback command (under Local Loopbacks), select Start.  
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Monitoring and Testing  
Starting a Payload Loopback  
The Payload Loopback command (PLB) loops the received signal on the network  
interface back to the network. The signal is looped back as close to the DTE  
Drop/Insert (DSX-1) port as possible (after it has passed through the framing  
circuitry of the DSU/CSU). Framing CRCs and BPVs are corrected.  
DSU  
CSU  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
ALL  
1s  
PLB  
ALL 1s  
ALL 1s  
496-14316-02  
PORT 2 PORT 1  
" Procedure  
To perform a Payload loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. For the Payload Loopback command (under Local Loopbacks), select Start.  
Starting a DTE Loopback  
The DTE Loopback command (DLB) loops the received signal on the DTE  
Drop/Insert (DSX-1) port back to the DTE without change.  
DSU  
CSU  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
DLB  
ALL 1s  
496-14317-02  
PORT 2  
PORT 1  
" Procedure  
To perform a DTE loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select DTE Tests.  
3. For the DTE Loopback command (under Local Loopbacks), select Start.  
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Monitoring and Testing  
Starting a Repeater Loopback  
The Repeater Loopback command (RLB) loops the signal being sent to the  
network back to the DTE Drop/Insert (DSX-1) and data ports. The signal is  
looped back as close to the network interface as possible (after it has passed  
through the framing circuitry of the DSU/CSU). Framing CRCs and BPVs are  
corrected.  
DSU  
CSU  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
RLB  
ALL 1s  
496-14318-02  
PORT 1  
PORT 2  
" Procedure  
To perform a Repeater loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. For the Repeater Loopback command (under Local Loopbacks), select Start.  
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Monitoring and Testing  
Starting a Data Channel Loopback  
The Data Channel Loopback command (DCLB) loops the data received from the  
network interface, for all DS0 channels allocated to the selected port, back to the  
network. The loopback occurs after the data passes through the port circuitry but  
before it is sent out the data port.  
DSU  
CSU  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
DCLB  
DCLB  
ALL 1s  
ALL 1s  
496-14315-02  
PORT 2 PORT 1  
" Procedure  
To perform a Data Channel loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Sync Data Port Tests.  
3. In the Port field (near the top of the screen), enter either 1 or 2 depending on  
the synchronous data port that you want to test.  
4. For the Data Channel Loopback command (under Local Loopbacks), select  
Start.  
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Monitoring and Testing  
Starting a Data Terminal Loopback  
The Data Terminal Loopback command (DTLB) loops the data received from the  
selected port, for all DS0 channels allocated to the port, back out of the port. This  
loopback occurs after the data passes through the port circuitry but before it  
reaches the T1 framer.  
DSU  
CSU  
ALL 1s  
NETWORK  
INTERFACE  
DTE  
(DSX-1)  
DTLB  
PORT 2  
DTLB  
PORT 1  
496-14314-02  
" Procedure  
To perform a Data Terminal loopback:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Sync Data Port Tests.  
3. In the Port field (near the top of the screen), enter either 1 or 2 depending on  
the synchronous data port that you want to test.  
4. For the Data Terminal Loopback command (under Local Loopbacks), select  
Start.  
Aborting Loopbacks  
Use the Abort Tests command to stop all loopback tests or any selected loopback  
test currently active on the DSU/CSU.  
" Procedure  
To abort one or more loopback tests:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Abort Tests.  
NOTE:  
To verify the abort procedure, use the System and Test Status screen in the  
Status branch.  
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Monitoring and Testing  
Test Patterns  
Use test pattern commands to send, monitor, and abort test patterns. Available  
test patterns are:  
H
H
H
QRSS – A quasi-random signal source approximating live data that can be  
monitored for logic errors (on the network and the data ports).  
1-in-8 – A test pattern consisting of a one (1) followed by seven zeros (on the  
network only).  
511 – A pseudo-random bit sequence (PRBS) that is 511 bits long (on the  
9
data ports only). This is a PRBS 2 –1 test.  
Use a monitor command to monitor a QRSS test pattern over all the channels on  
the network interface, or to monitor QRSS or 511 test patterns on the channels  
allocated to an individual port. A monitor command provides the number of errors  
detected in the test pattern (5 digits, maximum 99999).  
Only one test pattern can be active at a time on one port. Valid combinations are  
identified by YES in Table 4-9.  
Table 4-9. Valid Send Test Pattern Combinations  
QRSS  
(Network)  
1-in-8  
(Network)  
QRSS (Port)  
511 (Port)  
N/A  
NO  
NO  
NO  
QRSS  
(Network)  
NO  
NO  
YES (on  
separate ports)  
N/A  
N/A  
YES (on  
separate ports)  
QRSS (Port)  
NO  
NO  
1-in-8  
(Network)  
NO  
N/A  
N/A  
YES (on  
separate ports)  
511 (Port)  
Sending Network QRSS or Network 1-in-8 Test Patterns  
" Procedure  
To send a Network QRSS or Network 1-in-8 test pattern:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. In the Send field (under Pattern Tests), enter either QRSS or 1in8 depending  
on the type of test pattern that you want to send.  
4. For the Send command (under Pattern Tests), select Start.  
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Monitoring and Testing  
Sending Port QRSS or Port 511 Test Patterns  
" Procedure  
To send a Port QRSS or Port 511 test pattern:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Sync Data Port Tests.  
3. In the Port field (near the top of the screen), enter either 1 or 2 depending on  
the synchronous data port that you want to test.  
4. In the Send field (under Pattern Tests), enter either QRSS or 511 depending  
on the type of test pattern that you want to send.  
5. For the Send command (under Pattern Tests), select Start.  
Monitoring Network QRSS Test Patterns  
" Procedure  
To monitor a Network QRSS test pattern:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Network & DTE Tests.  
3. For the Monitor QRSS command (under Pattern Tests), select Start.  
Monitoring Port QRSS or Port 511 Test Patterns  
" Procedure  
To monitor a Port QRSS or Port 511 test pattern:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Sync Data Port Tests.  
3. In the Port field (near the top of the screen), enter either 1 or 2 depending on  
the synchronous data port that you want to test.  
4. In the Monitor field (under Pattern Tests), enter either QRSS or 511  
depending on the type of test pattern that you want to monitor.  
5. For the Monitor command (under Pattern Tests), select Start.  
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Monitoring and Testing  
Aborting Test Patterns  
Use the Abort Tests command to stop all test patterns or any selected test pattern  
active on the DSU/CSU.  
" Procedure  
To abort test patterns:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Abort Tests.  
Lamp Test  
Use the Lamp Test command to start or stop a test of the DSU/CSU front panel  
LEDs.  
Starting a Lamp Test  
" Procedure  
To start a Lamp test:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Device Tests.  
3. For the Lamp Test command, select Start.  
Aborting a Lamp Test  
" Procedure  
To abort the Lamp test:  
1. From the Main Menu screen, select Test.  
2. From the Test screen, select Device Tests.  
3. For the Lamp Test command, select Stop.  
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Monitoring and Testing  
Displaying DSU/CSU Test Status  
Use the System and Test Status screen to display the active tests for the  
DSU/CSU. Table 4-10 lists these messages.  
" Procedure  
To display test status:  
1. From the Main Menu screen, select Status.  
2. From the Status screen, select System and Test Status.  
Table 4-10. Test Status Messages  
Message  
Description  
No Test Active  
LLB Test Active  
PLB Test Active  
DLB Test Active  
RLB Test Active  
No tests are currently active.  
The network interface is in Line loopback.  
The network interface is in Payload loopback.  
The DTE Drop/Insert (DSX-1) port is in DTE loopback.  
The DTE Drop/Insert (DSX-1) port is in Repeater  
loopback.  
DCLB Test Active, Port n  
DTLB Test Active, Port n  
QRSS Test Active, Network  
Port n is in a Data Channel loopback.  
Port n is in a Data Terminal loopback.  
A QRSS test pattern is being sent on the network  
interface.  
1–8 Test Active, Network  
A 1-in-8 test pattern is being sent on the network  
interface.  
Mon QRSS Test Active,  
Network  
A QRSS test pattern is being monitored on the network  
interface.  
QRSS Test Active, Port n  
A QRSS test pattern is being sent to the network on the  
channels allocated to port n.  
511 Test Active, Port n  
A 511 test pattern is being sent to the network on the  
channels allocated to port n.  
Mon QRSS Test Active,  
Port n  
A QRSS test pattern is being monitored on the channels  
allocated to port n.  
Mon 511 Test Active, Port n  
DLB Test, External Contact  
Lamp Test Active  
A 511 test pattern is being monitored on the channels  
allocated to port n.  
The DTE Drop/Insert (DSX-1) port is being held in DTE  
loopback by the external contact.  
The Lamp test is currently active.  
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Monitoring and Testing  
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Asynchronous Terminal Menu  
A
Main  
Status  
Test  
Configuration  
Control  
Call  
Directories  
Select  
Monitor Jack  
Administer  
Password  
Reset  
Device  
Cross Connect  
Status  
Display  
LEDs  
Performance  
Statistics  
Identity  
Call  
Setup  
Customer ID  
Select  
LEDs  
System and  
Test Status  
Start  
Download  
DTE Channel  
Display  
Device  
Tests  
Sync Data  
Network &  
DTE Tests  
Network  
Channel  
Display  
Port  
Assignment  
Display  
Abort  
Tests  
Port Tests  
Configuration  
Edit/Display  
Sync Data  
Port  
Network  
Clear  
Statistics  
Network  
DTE  
Sync Data  
Ports  
Copy  
Ports  
Cross  
Connect  
General  
User  
Alarms Management  
Options Interface & Traps  
and  
Communication  
DTE to  
Network  
Sync Data  
Port  
Clear  
Assignments  
Assignments Assignments  
Telnet  
Sessions  
Auxiliary  
Port  
Communication External  
Port  
Device  
Communication General SNMP  
Protocol Management  
SNMP NMS  
Security  
SNMP  
Traps  
496-15013  
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Asynchronous Terminal Menu  
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Technical Specifications  
B
Overview  
The technical specifications for the standalone DSU/CSUs are listed in Table B-1.  
Table B-1. Model 3162 DSU/CSU Technical Specifications (1 of 2)  
Specifications  
Criteria  
POWER REQUIREMENTS  
AC Power Module  
Refer to the labeling on the ac power module for input  
requirements  
POWER CONSUMPTION  
AND DISSIPATION  
16.0 watts, 55.0 Btu per hour at 115 volts (ac power)  
DTE DROP/INSERT  
(DSX-1) INTERFACE  
Physical Interface  
Framing Format  
Coding Format  
DB15 socket  
D4, ESF  
AMI, B8ZS  
DTE Line Equalization  
5 selectable ranges from 0 to 655 feet  
(0 to 196.5 meters)  
Selectable  
Send AIS  
NETWORK T1 INTERFACE  
Physical Interface (USA)  
Physical Interface (Canada)  
Framing Format  
RJ48C  
CA81A using adapter cable  
D4, ESF  
AMI, B8ZS  
Coding Format  
Line Build-Out (LBO)  
ANSI PRM  
Bit Stuffing  
0.0 dB, –7.5 dB, –15 dB, –22.5 dB  
Selectable  
FCC Part 68, AT&T TR 62411  
Selectable  
Yellow Alarm Generation  
LOOPBACKS  
Standard  
Additional  
AT&T TR 54016, AT&T TR 62411, ANSI T1.403.1989  
RLB (Repeater Loopback), DLB (DTE Loopback), V.54  
Loop 2 and  
Loop 3, ANSI T1.403 Annex B Fractional T1 Loopback  
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Technical Specifications  
Table B-1. Model 3162 DSU/CSU Technical Specifications (2 of 2)  
Specifications  
Criteria  
PORT INTERFACE  
Standards  
Rates  
EIA 530A, V.35, RS-449, X.21  
Nx64 – 64K-1.536 Mb  
Nx56 – 56K-1.344 Mb  
APPROVALS  
Refer to the product labeling  
CLOCKING SOURCES  
T1 network interface, Port 1, internal clock, DTE  
Drop/Insert (DSX-1) interface or external clock  
PHYSICAL DIMENSIONS  
Height  
Width  
Depth  
2.13 inches (5.4 cm)  
7.63 inches (19.4 cm)  
12.13 inches (30.8 cm)  
WEIGHT  
2.4 pounds (1.1 kg)  
ENVIRONMENT  
Operating Temperature  
Storage Temperature  
Relative Humidity Shock and  
Vibration  
32°F to 122°F (0°C to 50°C)  
–4°F to 158°F (–20°C to 70°C)  
5%—95% (noncondensing)  
Withstands normal shipping and handling  
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Configuration Options  
C
Overview  
The DSU/CSU configuration option tables contain a list of all configuration  
options and their available selections. In the tables, the top line of each  
configuration option entry indicates the factory default setting.  
The configuration options are arranged into functional groups:  
H
H
H
H
H
H
H
through C-15)  
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Configuration Options  
Network Interface Configuration Options  
Table C-1. Network Interface Configuration Options (1 of 3)  
Line Framing Format: ESF (Factory 1) D4 (Factory 2)  
D4 ESF  
The framing format to be used on the network interface.  
D4 – Configures for the D4 framing format.  
ESF – Configures for the Extended Superframe format.  
Line Coding Format: B8ZS (Factory 1) AMI (Factory 2)  
AMI B8ZS  
The line coding format to be used on the network interface.  
AMI – Configures for the Alternate Mark Inversion coding format.  
B8ZS – Configures for the Bipolar 8 Zero Suppression coding format.  
Bit Stuffing: 62411  
62411 Part68 Disable  
Determines when bit stuffing is performed to meet the ones density requirements for  
data transmission on the network. You must choose the maximum number of  
consecutive zeros the DSU/CSU can receive before it inserts a one.  
62411 – Specifies that a one be inserted in the data stream after 15 consecutive zeros  
or when the density of ones falls below 12.5% (complies with AT&T TR 62411).  
Part68 – Specifies that a one be inserted in the data stream after 80 consecutive zeros  
(complies with FCC Part 68).  
Disable – Disables bit stuffing so that ones density is not enforced.  
NOTES: – To comply with Canadian DOC CS-03 regulations, equipment installed  
in Canada must be configured to select 62411.  
To comply with USA Part 68 regulations, equipment installed in the USA  
must be configured to select Part 68.  
– This configuration option is only available if the network interface line  
coding format is set to AMI.  
Line Build Out (LBO): 0.0  
0.0 –7.5 –15 –22.5  
The line build out (LBO) for the signal transmitted to the network.  
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Configuration Options  
Table C-1. Network Interface Configuration Options (2 of 3)  
Management Link: Disable  
Enable Disable  
Specifies whether Facility Data Link (FDL) is enabled. Selecting Enable allows SNMP or  
Telnet traffic to flow over the  
4 kbps data link provided by FDL. Running SNMP or Telnet over FDL requires an  
end-to-end FDL connection and cannot be terminated within the network.  
Enable – Enables the FDL management link for SNMP or Telnet.  
Disable – Disables the FDL management link.  
NOTES: – This configuration option is only available if the framing format is set to  
ESF.  
– This configuration option is not available if EDL is enabled.  
– If the local DSU/CSU’s FDL is enabled, the remote DSU/CSU’s FDL  
must also be enabled.  
ANSI Performance Report Messages: Disable  
Enable Disable  
Specifies whether ANSI T1.403 compliant performance report messages (PRMs) are  
generated.  
Enable – Generates and sends ANSI PRMs over the FDL every second.  
Disable – Prevents the DSU/CSU from generating ANSI PRMs.  
NOTE: This configuration option is only available if the framing format is set to  
ESF.  
Network Initiated LLB: Enable  
Enable Disable  
Allows initiation and termination of the LLB to be controlled by the receipt of  
LLB-Actuate and LLB-Release commands from the network (or remote DSU/CSU).  
Enable – Causes the DSU/CSU to enter an LLB (if the DSU/CSU can perform an LLB  
in its current state) and to cause an LLB-Release command to terminate the LLB.  
Disable – Causes the DSU/CSU to ignore LLB-Actuate and LLB-Release commands  
(the DSU/CSU is not in compliance with ANSI T1.403 and AT&T TR 62411).  
NOTE: If this configuration option is enabled, the DSU/CSU recognizes the in-band  
LLB-Actuate and LLB-Release codes specified by AT&T as well as the  
bit-oriented FDL messages specified by ANSI (for ESF only).  
Network Initiated PLB: Enable  
Enable Disable  
Allows initiation and termination of the PLB to be controlled by the receipt of  
PLB-Actuate and PLB-Release commands from the network (or remote DSU/CSU).  
Enable – Causes the DSU/CSU to enter a PLB (if the DSU/CSU can perform a PLB in  
its current state) and to cause a PLB-Release command to terminate the PLB.  
Disable – Causes the DSU/CSU to ignore PLB-Actuate and PLB-Release commands  
(the DSU/CSU is not in compliance with ANSI T1.403 and AT&T TR 54016).  
NOTES: – If this configuration option is enabled, the DSU/CSU recognizes the  
in-band PLB-Actuate and PLB-Release codes specified by AT&T as well  
as the bit-oriented FDL messages specified by ANSI.  
– This configuration option is only available if the network interface  
framing is set to ESF.  
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Configuration Options  
Table C-1. Network Interface Configuration Options (3 of 3)  
Circuit Identifier: Text Field  
Text Field Clear  
Specifies the transmission vendor’s circuit identifier for the purpose of facilitating  
troubleshooting. The network circuit identifier is an ASCII text string that may be up to  
255 characters in length.  
Text Field – Allows you to edit or display the network circuit identifier.  
Clear – Allows you to clear the network circuit identifier. The network circuit identifier is  
set to a null string.  
DTE Interface Configuration Options  
Table C-2. DTE Interface Configuration Options (1 of 2)  
Interface Status: Enable  
Enable Disable  
Enables the use of the DTE Drop/Insert (DSX-1) port.  
Enable – Allows the use of the DTE Drop/Insert (DSX-1) interface.  
Disable – Prohibits the use of the DTE Drop/Insert (DSX-1) interface.  
NOTE: When this configuration option is disabled, you cannot display or configure  
any other DTE Interface configuration options. If the clock source  
configuration option is set to DTE, it is changed to NET.  
Line Framing Format: ESF (Factory 1) D4 (Factory 2)  
D4 ESF  
Designates the framing format for the DTE Drop/Insert (DSX-1) interface.  
D4 – Configures for the D4 framing format.  
ESF – Configures for the Extended Superframe framing format.  
Line Coding Format: B8ZS (Factory 1) AMI (Factory 2)  
AMI B8ZS  
Designates the line coding format to be used on the DTE Drop/Insert (DSX-1) interface.  
AMI – Uses the Alternate Mark Inversion coding format.  
B8ZS – Uses the Bipolar 8 Zero Suppression coding format.  
Line Equalization: 0133  
0133 133266 266399 399533 533655  
Specifies the DTE line equalization compensation parameters that permit a standard  
DTE Drop/Insert (DSX-1) signal to be delivered over a distance of up to 655 feet.  
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Configuration Options  
Table C-2. DTE Interface Configuration Options (2 of 2)  
DTE LB on External Contact: Disable  
Next Enable Disable  
Allows the control of a DTE Loopback (DLB) by an external contact on the DTE  
Drop/Insert (DSX-1) interface.  
Enable – Allows the DSU/CSU to begin a DLB when the external contact is closed. The  
DSU/CSU remains in DLB as long as the contact remains closed.  
Disable – Prevents the state of the external contact from affecting the operation of DLB.  
Send All Ones on DTE Failure: Enable  
Enable Disable  
Specifies the action to take on the signal transmitted to the network when a valid signal  
cannot be recovered from the DTE Drop/Insert (DSX-1) interface (due to an LOS, OOF,  
or AIS condition).  
Enable – Sends all ones on the DS0 channels allocated to the network interface when  
an LOS, AIS, or OOF condition occurs on the DTE Drop/Insert (DSX-1) interface.  
Disable – Passes the data unchanged to the network interface channels.  
DTE Signaling  
D01 D02 D03 D04 D05 D06 D07 D08 D09 D10 D11 D12 D24  
RBS RBS RBS RBS RBS RBS RBS RBS RBS RBS RBS RBS RBS  
Specifies which DS0 channels from the DTE Drop/Insert (DSX-1) interface are voice  
channels and should pass Robbed Bit Signaling information to the network interface.  
Line 1 displays the 24 channels for the DTE Drop/Insert (DSX-1) interface. Line 2  
displays whether the DS0 channel indicated in Line 1 is a voice or data channel.  
Possible values for Line 2 are:  
Value Meaning  
RBS  
This DS0 channel is a voice channel carrying RBS information. When this DS0  
channel is assigned to a network DS0 channel, RBS information is preserved across  
the connection.  
None  
This DS0 channel is a data channel that does not contain RBS information.  
Signaling is not preserved across the connection.  
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Configuration Options  
Sync Data Port Configuration Options  
Table C-3. Sync Data Port Configuration Options (1 of 5)  
Port Type: E530 (Factory 1) V.35 (Factory 2)  
E530 V.35 RS449 X.21  
Allows selection of the data port interface type.  
E530 – Configures the port as an EIA 530A compatible interface. EIA 530A DTEs can  
be directly connected to a port connector on the back of the DSU/CSU.  
V.35 – Configures the port as a V.35 compatible interface. V.35 DTEs can be connected  
to a port connector using an EIA 530A-to-V.35 adapter cable.  
RS449 – Configures the port as an RS449 compatible interface. RS449 DTEs can be  
connected to a port connector using an EIA 530A-to-RS449 adapter cable.  
X.21 – Configures the port as an X.21 compatible interface. X.21 DTEs can be  
connected to a port connector using an EIA 530A-to-X.21 adapter cable.  
NOTE: If this configuration option is set to X.21, set the Send All Ones  
configuration option to RTS or Disable.  
Port Base Rate: Nx64  
Nx64 Nx56  
Allows selection of the base rate for the data port. The data rate for the port is a multiple  
(from 1 to 24) of the base rate specified with this configuration option.  
Nx64 – Sets the base rate for this port to 64 kbps. The data rate is Nx64 kbps, where N  
is a number from 1 to 24.  
Nx56 – Sets the base rate for this port to 56 kbps. The data rate is Nx56 kbps, where N  
is a number from 1 to 24.  
Transmit Clock Source: Internal  
Internal External  
Specifies whether the transmitted data for the port is clocked using an internal clock  
provided by the DSU/CSU (synchronized to the clock source specified by the clock  
source configuration option) or an external clock provided by the DTE connected to the  
port. If an external clock is used, it must be synchronized to the same clock source as  
the DSU/CSU.  
Internal – Indicates the clock is provided internally by the DSU/CSU on the TXC  
interchange circuit DB (CCITT 114).  
External – Indicates the clock is provided externally by the DTE on the XTXC  
interchange circuit DA (CCITT 113). Use this selection if the clock source is set to this  
data port.  
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Configuration Options  
Table C-3. Sync Data Port Configuration Options (2 of 5)  
Embedded Data Link: Disable  
Enable Disable  
Specifies whether Embedded Data Link (EDL) is enabled for a particular port. If EDL is  
enabled, then 8 kbps of the total bandwidth allocated for this port is not available to the  
synchronous data port. For example, if the port rate is 256 kbps (4 DS0 channels  
allocated) and EDL is enabled, then only 248 kbps is available to the port. EDL provides  
the following: detection of frame synchronization, CRC of the data stream (excluding the  
8 kbps EDL), and an in-band data link (4 kbps) between the local and remote units. The  
4 kbps in-band data link can be used for performance report messages and as an IP  
link for SNMP or Telnet sessions.  
Enable – Indicates the port’s EDL is enabled.  
Disable – Indicates the port’s EDL is disabled.  
NOTES: – If the local DSU/CSU’s EDL is enabled, then the remote DSU/CSU’s  
EDL must also be enabled.  
– EDL is not recommended for networks in which data is examined for  
routing purposes (e.g., frame relay, x.25).  
EDL Management Link: Disable  
Enable Disable  
Specifies whether the EDL management link is enabled for a particular port. Selecting  
Enable allows SNMP or Telnet traffic to flow over the 4 kbps in-band data link provided  
by EDL.  
Enable – Enables the port’s EDL management link.  
Disable – Disables the port’s EDL management link.  
NOTES: – This configuration option is not available if EDL is disabled or FDL is  
enabled.  
– If the local DSU/CSU’s EDL is enabled, then the remote device’s EDL  
must also be enabled.  
Invert Transmit Clock: Disable  
Enable Disable  
Specifies whether the clock supplied by the DSU/CSU on the TXC interchange circuit  
DB (CCITT 114) is phase inverted with respect to the Transmitted Data interchange  
circuit BA (CCITT 103). This configuration option is useful when long cable lengths  
between the DSU/CSU and the DTE are causing data errors.  
Enable – Indicates TXC supplied by the DSU/CSU on this port is phase inverted.  
Disable – Indicates TXC supplied by the DSU/CSU on this port is not phase inverted.  
Invert Transmit and Received Data: Disable  
Enable Disable  
Specifies whether the port’s transmitted data and received data are logically inverted  
before being transmitted or received. This configuration option is useful for applications  
where HDLC data is being transported. Inverting the data ensures that the density  
requirements for the network interface are met.  
Enable – Indicates the transmitted data and received data for this port are inverted.  
Disable – Indicates the transmitted data and received data for this port are not inverted.  
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Configuration Options  
Table C-3. Sync Data Port Configuration Options (3 of 5)  
Send All Ones on Data Port Not Ready: Both  
Disable DTR RTS Both  
Specifies the conditions on the data port that determine when valid data is not being  
sent from the DTE. When this condition is detected, all ones are sent to the network on  
the DS0 channels allocated to the port.  
Disable – Disables the monitoring of interchange circuits from the DTE connected to  
this port.  
DTR – Monitors the DTE Ready interchange circuit CD (CCITT 108/1/2). When DTR is  
interrupted, all ones are sent to the network.  
RTS – Monitors the Request-to-Send interchange circuit CA (CCITT 105). When RTS is  
interrupted, all ones are sent to the network.  
Both – Monitors both DTR and RTS. If either is interrupted, all ones are sent to the  
network.  
NOTE: If the Port Type configuration option is set to X.21, set this configuration  
option to RTS or Disable.  
Action on Network Yellow Alarm: Halt  
None Halt  
Specifies the action taken on this port when a Yellow Alarm is received on the network  
interface.  
None – Makes the data port unaffected by Yellow Alarms received on the network  
interface.  
Halt – Stops the transmission of data on the port and disables the data port when  
Yellow Alarms are received on the network interface. When Yellow Alarms are received,  
all ones are sent on the Received Data interchange circuit BB (CCITT 104). The  
Clear-to-Send interchange circuit CB (CCITT 106) is interrupted.  
Network Init. Data Channel Loopback: Disable (Factory 1) Both (Factory 2)  
Disable V.54 FT1 Both  
Allows the initiation and termination of a Data Channel Loopback (V.54 loop 2) by the  
receipt of a V.54 DCLB-actuate sequence or DCLB-release sequence from the network  
or far-end device. The sequences may be either V.54 or FT1 (ANSI) compliant  
sequences.  
Disable – Ignores the DCLB-actuate and DCLB-release sequences for this port.  
V.54 – Enables DCLB-actuate and DCLB-release sequences that comply with the V.54  
standard for ‘‘Inter-DCE signaling for point to point circuits.”  
FT1 – Enables DCLB-actuate and DCLB-release sequences that comply with the ANSI  
T1.403, Annex B standard for ‘‘In-band signaling for fractional-T1 (FT1) channel  
loopbacks.”  
Both – Enables DCLB-actuate and DCLB-release sequences that comply with either  
the ANSI or V.54 standard. The type of actuate and release sequences do not have to  
match.  
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Configuration Options  
Table C-3. Sync Data Port Configuration Options (4 of 5)  
Port (DTE) Initiated Loopbacks: Disable (Factory 1) Both (Factory 2)  
Disable DTLB DCLB Both  
Allows the initiation and termination of a local Data Terminal Loopback (DTLB) or  
remote Data Channel Loopback (DCLB) by the DTE connected to this port. (DTLB is  
equivalent to a V.54 loop 3, and DCLB is equivalent to a V.54 loop 2.) Control of these  
loopbacks is through the DTE interchange circuits as specified by the V.54 standard.  
Disable – Disables control of local DTLBs and remote DCLBs by the DTE connected to  
this port.  
DTLB – Gives control of the local DTLBs for this port to the DTE attached to this port.  
This loopback is controlled by the Local Loopback interchange circuit LL (CCITT 141).  
DCLB – Gives control of the remote DCLBs for the far-end port connected to this port to  
the DTE attached to this port. This loopback is controlled by the Remote Loopback  
interchange circuit RL (CCITT 140). The far-end equipment must support in-band V.54  
loopbacks.  
Both – Gives control of local DTLBs and remote DCLBs to the DTE connected to this  
port.  
Near-End Performance Statistics: Disable  
Disable Maintain Send Both  
Specifies whether the DSU/CSU maintains near-end performance statistics and sends  
performance report messages (PRMs) for a particular port.  
Disable – Disables near-end performance statistics and does not send PRMs.  
Maintain – Maintains near-end performance statistics for this port.  
Send – Sends PRMs over the port’s EDL every second. Each PRM contains the  
performance statistics for the previous 4 seconds.  
Both – Maintains near-end performance statistics and sends PRMs over the port’s EDL.  
NOTES: – This configuration option is not available if EDL is disabled.  
– If the local DSU/CSU is configured to send near-end performance  
statistics, then the remote device must be configured to maintain  
far-end performance statistics.  
Far-End Performance Statistics: Disable  
Disable Maintain  
Specifies whether to monitor for far-end performance report messages (PRMs) and  
maintain far-end performance registers for a particular port.  
Disable – Disables far-end performance statistics.  
Maintain – Monitors the port’s EDL for PRMs and maintains far-end performance  
statistics.  
NOTES: – This configuration option is not available if EDL is disabled.  
– If the local DSU/CSU is configured to maintain far-end performance  
statistics, then the remote device must be configured to send near-end  
performance statistics.  
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Configuration Options  
Table C-3. Sync Data Port Configuration Options (5 of 5)  
Excessive Error Rate Threshold: 10E-4  
10E-4 10E-5 10E-6 10E-7 10E-8 10E-9  
Sets the error rate threshold that determines when an Excessive Error Rate (EER)  
condition is declared for a particular port. The error rate selected by this configuration  
option is determined by the ratio of the number of CRC5 errors to the total number of  
bits received over a set period of time.  
10E-4 – 10E-4 Threshold. For example, at 1536 kbps, EER is declared if more than  
1,535 CRC5 errors are detected in a 10-second period. It is cleared with less than  
1,536 errors in ten seconds.  
10E-5 – 10E-5 Threshold. For example, at 1536 kbps, EER is declared if more than  
921 CRC5 errors are detected in a 60-second period. It is cleared with less than  
922 errors in sixty seconds.  
10E-6 – 10E-6 Threshold. For example, at 1536 kbps, EER is declared if more than  
92 CRC5 errors are detected in a 60-second period. It is cleared with less than 93 errors  
in sixty seconds.  
10E-7 – 10E-7 Threshold. For example, at 1536 kbps, EER is declared if more than  
9 CRC5 errors are detected in a 60-second period. It is cleared with less than 10 errors  
in sixty seconds.  
10E-8 – 10E-8 Threshold. For example, at 1536 kbps, EER is declared if more than  
41 CRC5 errors are detected in three 15-minute intervals. It is cleared with less than  
42 errors in three 15-minute intervals.  
10E-9 – 10E-9 Threshold. For example, at 1536 kbps, EER is declared if more than  
4 CRC5 errors are detected in three 15-minute intervals. It is cleared with less than  
5 errors in three 15-minute intervals.  
NOTE: This configuration option is not available if EDL is disabled.  
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Configuration Options  
Cross Connect Configuration Options  
The Cross Connect configuration options are divided into two tables as follows:  
H
H
DTE-to-Network Assignment Options (Table C-4)  
DTE-to-Network Assignment Options  
Table C-4. DTE-to-Network Assignment Options  
DTE to Network Assignments  
N01 N02 N03 N04 N05 N06 N07 N08 N24  
DTE01 DTE02 DTE03 DTE04 DTE05 DTE06 DTE07 DTE08 DTE24  
Assigns DS0 channels from the DTE Drop/Insert (DSX-1) interface to the network  
interface.  
Line 1 displays the 24 channels for the network interface. Line 2 displays what is  
allocated to the DS0 channel indicated in Line 1. Possible values for Line 2 are:  
Value  
Meaning  
Available This DS0 channel is not allocated. You can modify this value on this  
screen.  
Assigned This DS0 channel is allocated to a synchronous data port. You  
cannot modify this value on this screen.  
DTEnn  
This DS0 channel is allocated to the DTE Drop/Insert (DSX-1)  
interface DS0 channel nn, where nn is a number from 01 to 24. You  
can modify this value on this screen.  
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Configuration Options  
Sync Data Port Assignment Options  
Table C-5. Sync Data Port Assignment Options (1 of 3)  
Sync Data Port Assignments  
Assign To: Network  
Network DTE Port  
Allows you to assign a synchronous data port to DS0 channels on either the network  
interface, the DTE Drop/Insert (DSX-1) interface, or another port.  
Network – Assigns this port to DS0 channels on the network interface.  
DTE – Assigns this port to DS0 channels on the DTE Drop/Insert (DSX-1) interface. If  
the DTE Drop/Insert (DSX-1) interface is disabled, this selection does not appear.  
Port – Assigns this port to another port. Use this feature to designate a port as a  
backup port. You can attach an external backup device to a backup port and manually  
assign the selected port to the backup port (i.e., route data from the selected port to the  
backup port). When a port is assigned to another port, DSR is turned on. EDL does not  
operate when a synchronous data port is assigned to another synchronous data port.  
Therefore, if EDL is enabled, it is ignored.  
NOTE: Changing this configuration option from one T1 interface to the other  
(Network or DTE) deallocates all DS0 channels assigned to the previous  
interface.  
Sync Data Port Assignments  
Assign By: Block  
Block ACAMI Channel  
If you select NET or DTE using the Assign To configuration option, this configuration  
option designates the method for assigning DS0 channels to the destination T1  
interface.  
Block – Allocates DS0 channels to this port by the block method.  
ACAMI – Allocates DS0 channels to this port by the Alternate Channel Alternate Mark  
Inversion method. The difference between block and ACAMI is that the number of  
channels allocated with ACAMI is double the number needed for the port rate. With  
ACAMI, every alternate DS0 channel does not carry data from the port but always  
transmits and receives all ones.  
Channel – Allocates DS0 channels to this port by the individual channel method.  
NOTE: Changing this configuration option from one method to another (Block,  
ACAMI, or Channel) deallocates all DS0 channels assigned to either the  
network interface or the DTE Drop/Insert (DSX-1) interface.  
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Configuration Options  
Table C-5. Sync Data Port Assignment Options (2 of 3)  
Sync Data Port Assignments  
Port Data Rate: 384  
64 128 192 256 320 384 448 512 576 640 704 768 832  
896 960 1024 1088 1152 1216 1280 1344 1408 1472 1536  
OR  
56 112 168 224 280 336 392 448 504 560 616 672 728  
784 840 896 952 1008 1064 1120 1176 1232 1288 1344 Prev  
Designates the data rate for the port. Available selections depend on the current base  
rate configured for the port. The factory default for Nx64 is 384 kbps, and Nx56 is  
336 kbps.  
NOTES: – This selection is not available if the individual channel allocation method  
(Channel) is selected using the Assign By field.  
– Changing this selection from one rate to another deallocates all DS0  
channels assigned to either the network interface or the DTE  
Drop/Insert (DSX-1) interface.  
– When you enable EDL, 8 kbps of the total bandwidth allocated for this  
port is not available to the synchronous data port. For example, if you  
select 256 kbps and EDL is enabled, only 248 kbps are available.  
– When you enable EDL on a synchronous data port and the clock source  
is set to that synchronous data port, the external device must provide a  
clock of 8 kbps less than the expected data port rate. For example, if  
you select 64 kbps, the external clock source must supply a 56 kbps  
clock signal.  
Sync Data Port Assignments  
Assign To: Port  
Portn: Pn  
Allows you to assign this port to another port.  
Possible values are:  
Value Meaning  
Available This DS0 channel is not allocated. You can modify this value on this screen.  
Assigned This DS0 channel is allocated to the network interface or the DTE  
Drop/Insert (DSX-1) interface. You cannot modify this value on this screen.  
Pn  
This DS0 channel is allocated to Port n, where n is 1 or 2. You can modify this  
value on this screen.  
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Configuration Options  
Table C-5. Sync Data Port Assignment Options (3 of 3)  
Sync Data Port Assignments  
N01 N02 N03 N04 N05 N06 N07 N08 N24  
Pn Pn Pn Pn Pn Pn Pn Pn Pn  
OR  
D01 D02 D03 D04 D05 D06 D07 D08 D24  
Pn Pn Pn Pn Pn Pn Pn Pn Pn  
Designates the DS0 channel to allocate to this port, N01–N24 for the network interface  
and D01–D24 for the DTE Drop/Insert (DSX-1) interface.  
Line 1 displays the 24 channels for the network interface or the DTE Drop/Insert  
(DSX-1) interface. Line 2 displays what is allocated to the DS0 channel indicated in  
Line 1. Possible values are:  
Value Meaning  
Nnn  
This DS0 channel is allocated to the network interface DS0 channel n, where n  
is a number from 1 to 24. You cannot modify this value on this screen.  
Dnn  
This DS0 channel is allocated to the DTE Drop/Insert (DSX-1) interface DS0  
channel n, where n is a number from 1 to 24. You can modify this value on this  
screen.  
Pn  
This DS0 channel is allocated to port n, where n is 1 or 2. You can modify this  
value on this screen for this port only.  
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Configuration Options  
General Configuration Options  
Table C-6. General Configuration Options (1 of 2)  
Generate Yellow Alarm Signals: Enable  
Enable Disable  
Determines whether the DSU/CSU generates Yellow Alarm signals on the network and  
DTE Drop/Insert (DSX-1) interfaces.  
NOTE: This configuration option is not available if the DTE Drop/Insert (DSX-1)  
Interface is disabled. If the DTE Drop/Insert (DSX-1) interface is disabled,  
the DSU/CSU always generates the Yellow Alarm signal on the network  
interface.  
Enable – Generates the Yellow Alarm signal for both the network and DTE Drop/Insert  
(DSX-1) interfaces.  
Disable – Disables the Yellow Alarm signal. When this configuration option is disabled,  
Yellow Alarm conditions on the network interface cause an AIS signal to be transmitted  
on the DTE Drop/Insert (DSX-1) interface.  
NOTE: When this configuration option is disabled, the DTE equipment connected  
to the DTE Drop/Insert (DSX-1) interface is responsible for generation of  
the Yellow Alarm signal on the network interface. In this case, the interface  
port marked DTE must only be connected to an FCC Part 68 Registered  
(for USA) and Canadian DOC Certified (for Canada) Digital Service Unit or  
System, such as PBX, with a DTE Drop/Insert (DSX-1) interface. Failure to  
do so is a violation of FCC Rules or DOC Regulations.  
Self Test: Enable  
Enable Disable  
Specifies whether the DSU/CSU performs a device self-test at power-up and after a  
device reset.  
Enable – Enables a self-test.  
Disable – Disables the self-test.  
Test Timeout: Enable  
Enable Disable  
Specifies whether user-initiated loopback and pattern tests have durations that are  
specified by the Test Duration configuration option.  
Enable – Loopback and pattern tests initiated on the DSU/CSU have specified  
durations.  
Disable – Disables test timeout. The tests are terminated manually.  
NOTE: For DSU/CSUs that are remotely managed through an inband data stream  
such as EDL or FDL, the recommended setting is Enable. If tests are  
inadvertently left in the active state, the Enable setting will allow the test to  
timeout (terminate) after a specified time.  
Test Duration: 10  
1 to 120 minutes  
Specifies the duration (1 to 120 minutes) of user-initiated loopback and pattern tests.  
(The Test Timeout configuration option must be set to Enable.)  
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Configuration Options  
Table C-6. General Configuration Options (2 of 2)  
Primary Clock Source: Network  
Network DTE Internal External Port 1  
Specifies the master clock source for the DSU/CSU. This selection synchronizes all  
internal timing and external interface clocks. The clock rate(s) for the external timing  
interfaces are independent of the input rate for the master clock. Failure of the clock  
specified by the clock source selection results in automatic fallback to internal clock.  
Network – Configures the network interface as the master clock source.  
DTE – Configures the DTE Drop/Insert (DSX-1) interface as the master clock source.  
This selection is not available if the DTE Drop/Insert (DSX-1) interface is disabled. If the  
DTE Drop/Insert (DSX-1) interface is disabled after making this selection, the master  
clock source is changed to Network.  
Internal – Configures the internal clock as the master clock source.  
External – Configures an external clock (provided through the Clock In connector) as  
the master clock source.  
Port 1 – Configures Port 1 as the master clock source. This is the only synchronous  
data port you can use for the master clock. If you enable EDL if for Port 1 and the  
DSU/CSU Clock Source is set to Port 1, the external device must provide clocking of 8  
kbps less than the expected data port rate. For example, if you select 64 kbps, the  
external clock must supply a 56 kbps clock signal.  
External Clock Rate (KHz): 1544  
2048 1544  
8
Specifies the clock rate when the master clock source is configured for external clock.  
This configuration option does not appear when the clock source is not an external  
clock.  
2048 – Sets the input rate of the external clock to 2,048 kHz.  
1544 – Sets the input rate of the external clock to 1,544 kHz.  
8 – Sets the input rate of the external clock to 8 kHz.  
NOTE: External clock rate 2,048 kHz does not imply E1 compatibility.  
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Configuration Options  
User Interface Configuration Options  
The User Interface configuration options are divided into four tables as follows:  
H
H
H
H
Communication Port Configuration Options (Table C-7)  
Communication Port Configuration Options  
Table C-7. Communication Port Configuration Options (1 of 3)  
Port Use: Terminal  
Mgmt ASCII Daisy Terminal  
Specifies how the communication port is used.  
Mgmt – Configures the communication port as the link to an SNMP or Telnet system.  
ASCII – Configures the communication port as an ASCII port supporting ASCII alarm  
messages.  
Daisy – Configures the communication port as an SNMP or Telnet port that is daisy  
chained to the auxiliary port of an another 31xx Series device.  
Terminal – Configures the communication port as the interface to an async terminal.  
Port Type: Asynchronous  
Asynchronous Synchronous  
Specifies whether the communication port uses synchronous or asynchronous  
operation when it is configured as the SNMP or Telnet management link.  
Asynchronous – Configures the communication port for asynchronous operation.  
Synchronous – Configures the communication port for synchronous operation.  
NOTE: This configuration option is not available if the Port Use configuration option  
is set to ASCII, Daisy, or Term. In these cases, the communication port is  
always asynchronous.  
Clock Source: Internal  
Internal External  
Specifies whether the communication port uses internal or external clocking when it is  
configured for synchronous operation.  
Internal – Configures the communication port for internal clocking.  
External – Configures the communication port for external clocking.  
NOTE: This configuration option is not available if the Port Type configuration  
option is set to Asynchronous.  
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Configuration Options  
Table C-7. Communication Port Configuration Options (2 of 3)  
Data Rate: 9.6  
1.2 2.4 4.8 9.6 14.4 19.2 38.4  
Configures the bit rate for the communication port.  
1.2 – Sets the bit rate to 1200 bps (for asynchronous operation only).  
2.4 – Sets the bit rate to 2400 bps.  
4.8 – Sets the bit rate to 4800 bps.  
9.6 – Sets the bit rate to 9600 bps.  
14.4 – Sets the bit rate to 14,400 bps.  
19.2 – Sets the bit rate to 19,200 bps.  
38.4 – Sets the bit rate to 38,400 bps.  
NOTE: This configuration option is not available if the communication port is  
configured for synchronous operation and the clock source is external.  
Character Length:  
8
7
8
Configures the character length (7 or 8 bits) for the communication port.  
NOTES: – This configuration option must be set to 8 if the communication port is  
used as the network communication link.  
– This configuration option is not available if the communication port is  
configured for synchronous operation.  
Parity: None  
None Even Odd  
Configures the parity (none, even, or odd) for the communication port.  
NOTE: This configuration option is not available if the communication port is  
configured for synchronous operation.  
Stop Bits:  
1.5  
1
1
2
Configures the number of stop bits (1, 1.5, or 2) for the communication port.  
NOTE: This configuration option is not available if the communication port is  
configured for synchronous operation.  
Ignore Control Leads: Disable  
Disable DTR  
Specifies whether the DSU/CSU ignores the state of the Data Terminal Ready (DTR)  
input to the communication port.  
Disable – The control leads are treated in the standard manner.  
DTR – DTR is ignored.  
NOTE: This configuration option is not available if the communication port is  
configured for synchronous operation.  
Password Required: Disable  
Enable Disable  
Activates a password prompt that prevents access until a password is entered.  
Enable – Prompts the communications port user to enter a password.  
Disable – Does not require a password.  
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Configuration Options  
Table C-7. Communication Port Configuration Options (3 of 3)  
Inactivity Timeout: Disable  
Enable Disable  
Specifies whether the communication port disconnects after a period of inactivity  
specified by the Disconnect Time configuration option.  
Enable – The communication port disconnects after the period of inactivity specified by  
the Disconnect Time configuration option.  
Disable – The communication port does not disconnect due to inactivity.  
Disconnect Time:  
1 to 60 minutes  
5
Specifies the period of time (1 to 60 minutes) before the communication port  
disconnects due to inactivity. (The Inactivity Timeout configuration option must be set to  
Enable.)  
External Device Configuration Options  
Table C-8. External Device Configuration Options (1 of 3)  
External Device Commands: Disable  
Disable AT Other  
Specifies the communication port’s external device commands. If this configuration  
option is disabled, no commands are sent out the communication port. Select AT to  
have standard attention (AT) commands sent out the communication port to control the  
external device. Select Other to configure the connect prefix, the connect indication  
string, the escape sequence, the escape sequence delay, and the disconnect string.  
Disable – Allows no commands to be sent out the communication port.  
AT – Allows standard AT commands to be sent out the communication port.  
Other – Allows user-configurable commands to be sent out the communication port.  
NOTES: – This configuration option is not available if the communications port is  
disabled.  
– Carrier Detect (CD) is used to detect that the external device’s  
connection is lost. Therefore, do not allow the CD lead to be forced on  
by the external device.  
– The external device should be strapped to ignore Data Terminal Ready  
(DTR).  
Dial-In Access: Disable  
Enable Disable  
Allows dial-in access to the DSU/CSU through an external device that is connected to  
the communication port.  
Enable – Allows dial-in access to the DSU/CSU.  
Disable – Prevents dial-in access. Incoming calls to the DSU/CSU are not answered.  
NOTE: To enable Dial-In, the external device must be configured for automatic  
answer and the External Device Commands configuration option must be  
enabled.  
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Configuration Options  
Table C-8. External Device Configuration Options (2 of 3)  
Connect Prefix: Text Field  
Text Field Clear  
Specifies the connect prefix to the dial directory phone number. When you make a  
connection or the DSU/CSU automatically makes a connection (dial-out alarms or traps)  
through the communication port, the connect prefix and the dial directory phone number  
are used to establish the connection. The connect prefix is an ASCII text string and may  
be up to 20 characters in length. If the connect prefix is NULL, then no connect prefix is  
used.  
Text Field – Allows you to edit or display the connect prefix.  
Clear – Allows you to clear the connect prefix. The connect prefix is set to a null string.  
NOTE: This configuration option is not available if the External Device Commands  
configuration option is set to AT.  
Connect Indication String: Text Field  
Text Field Clear  
Specifies the communication port’s connect indication string. When you make a  
connection or the DSU/CSU automatically makes a connection (dial-out alarms or traps)  
through the communication port, this string determines that the connection has been  
established. The connect indication string is an ASCII text string and may be up to 20  
characters in length. If the connect indication string is not received within 1 minute, it will  
time-out the connection. If the connect indication string is NULL, the communication  
port’s receive data stream is not searched and a transition in the Carrier Detect (CD)  
lead is used to determine that a connection has been established.  
Text Field – Allows you to edit or display the case-sensitive connect indication string.  
Clear – Allows you to clear the connect indication string. The connect indication string is  
set to a null string.  
NOTE: This configuration option is not available if the External Device Commands  
configuration option is set to AT.  
Escape Sequence: Text Field  
Text Field Clear  
Specifies the communication port’s escape sequence. Once the external device  
connection has been established, either you or the DSU/CSU can command the  
external device to disconnect. Before doing so, you may need to send the escape  
sequence out to switch the external device into command mode. The escape sequence  
is an ASCII text string and may be up to 20 characters in length. If the escape sequence  
is NULL, no escape sequence is sent out.  
Text Field – Allows you to edit or display the escape sequence.  
Clear – Allows you to clear the escape sequence. The escape sequence is set to a null  
string.  
NOTE: This configuration option is not available if the External Device Commands  
configuration option is set to AT.  
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Configuration Options  
Table C-8. External Device Configuration Options (3 of 3)  
Escape Sequence Delay (sec): None  
None 0.2 0.4 0.6 0.8 1.0  
Specifies the delay used while sending the communication port escape sequence. Use  
the communication port escape delay to specify the delay before sending the first  
character of the escape sequence and the delay after the last character of the escape  
sequence. During the delay, no data is sent out the communication port.  
None – No communication port escape sequence delay.  
X.Xs – The delay used during the communication port escape sequence (where X.X is  
0.2, 0.4, 0.6, 0.8, or 1.0 seconds).  
NOTES: – This configuration option is not available if the External Device  
Commands configuration option is set to AT.  
– Escape Sequence Delay must be configured for a delay greater than or  
equal to the escape guard time required by the external device.  
Disconnect String: Text Field  
Text Field Clear  
Specifies the communication port’s disconnect string. The communication port’s  
disconnect string is sent to the external device if either you or the DSU/CSU wants to  
command the external device to disconnect. The external device must be in command  
mode before this command can be sent, so the escape sequence will always be sent  
before the disconnect string. The disconnect string is an ASCII text string and may be  
up to 20 characters in length. If the disconnect string is NULL, then no disconnect string  
is sent out.  
Text Field – Allows you to edit or display the disconnect string.  
Clear – Allows you to clear the disconnect string. The disconnect string is set to a null  
string.  
NOTE: This configuration option is not available if the External Device Commands  
configuration option is set to AT.  
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Configuration Options  
Telnet Sessions Configuration Options  
Table C-9. Telnet Sessions Configuration Options  
Telnet Session: Disable  
Enable Disable  
Specifies whether the DSU/CSU responds as a server to Telnet session requests.  
Enable – The DSU/CSU responds to Telnet session requests.  
Disable – The DSU/CSU does not respond to Telnet session requests.  
Password Required: Disable  
Enable Disable  
Specifies whether a password is required for Telnet access.  
Enable – A password is required for Telnet access.  
Disable – A password is not required for Telnet access.  
Inactivity Timeout: Disable  
Enable Disable  
Specifies whether the Telnet session disconnects after a period of inactivity specified by  
the Disconnect Time configuration option.  
Enable – The Telnet session disconnects after the period of inactivity specified by the  
Disconnect Time configuration option.  
Disable – The Telnet session does not disconnect due to inactivity.  
Disconnect Time:  
1 to 60 minutes  
5
Specifies the period of time (1 to 60 minutes) before the Telnet session disconnects due  
to inactivity. (The Inactivity Timeout configuration option must be set to Enable.)  
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Configuration Options  
Auxiliary Port Configuration Options  
Table C-10. Auxiliary Port Configuration Options  
Port Use: None  
None Mgmt Daisy  
Specifies how the auxiliary port is used. The auxiliary port only supports Point-to-Point  
Protocol (PPP) with the following parameters: type is asynchronous, character length is  
8, parity is none, and stop bit is 1.  
None – Specifies that the auxiliary port is not to be used.  
Mgmt – Configures the auxiliary port as the link to an SNMP manager or Telnet client  
via an external LAN Adapter.  
Daisy – Configures the auxiliary port as an SNMP or Telnet port that is daisy chained to  
the communication port of an another 31xx Series device.  
Data Rate (Kbps): 19.2  
9.6 14.4 19.2 38.4  
Configures the bit rate for the auxiliary port.  
9.6 – Configures the auxiliary port rate as 9600 bps.  
14.4 – Configures the auxiliary port rate as 14,400 bps.  
19.2 – Configures the auxiliary port rate as 19,200 bps.  
38.4 – Configures the auxiliary port rate as 38,400 bps.  
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Configuration Options  
Alarm and Trap Configuration Options  
Table C-11. Alarm and Trap Configuration Options (1 of 2)  
ASCII Alarm Messages: Disable  
Disable Com Port  
Controls the generation of alarm messages, which are routed to an ASCII terminal or  
printer attached to the communication port and/or the modem port.  
Disable – Prevents an alarm message for any alarm conditions.  
Com Port – Enables alarm messages routed to the communication port.  
NOTE: Alarm messages are only sent to the communication port if the Port Use  
configuration option is set to ASCII, otherwise the alarm messages are  
discarded.  
Alarm & Trap Dial-Out: Disable  
Enable Disable  
Controls whether generated alarm or trap messages initiate a call if the external  
communication port device connection has not already been established. When  
enabled, a call is placed to the phone number contained in the alarm directory (directory  
A). If the call cannot be completed and the retry option is enabled, the alarm or trap  
message is held until the call is completed or the call has been retried. If more than one  
alarm message is received while waiting for a call retry, only the highest priority alarm  
message received is held; all previous messages are discarded.  
Enable – Enables automatic call initiation (dial out) if an alarm or trap message needs  
to be sent.  
Disable – Disables automatic call initiation. Trap messages sent to the external  
communication port device are queued (held) if an external communication port device  
connection has not been previously established. Alarm messages are not queued.  
NOTE: This configuration option is only available if the External Device Commands  
option is enabled.  
Trap Disconnect: Enable  
Enable Disable  
Specifies whether the external communication port device connection is disconnected  
after sending a trap message. This configuration option applies only to external  
communication port device connections initiated as a result of the trap message being  
sent.  
Enable – Specifies that the external communication port device call is disconnected  
after a trap message is sent.  
Disable – Specifies that the external communication port device call is not disconnected  
after a trap message is sent. The line is held until it is manually disconnected or  
disconnected by the device.  
NOTE: This configuration option is only available if SNMP traps are enabled and  
the external communication port device is enabled and configured as an  
SNMP management link.  
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Configuration Options  
Table C-11. Alarm and Trap Configuration Options (2 of 2)  
Call Retry: Disable  
Enable Disable  
Determines whether a call that cannot complete (busy, no answer, etc.) is retried. This  
affects calls that are initiated in attempting to send an alarm or trap message to the  
external communication port device. If call retry is specified, the DSU/CSU attempts to  
complete the call after a configurable delay.  
Enable – Enables call retry. If enabled, the call is retried once per alarm or trap  
message. A delay as specified by the dial-out delay time is imposed between call  
attempts. If an alternate dial-out directory is specified, both the alarm directory as well  
as the alternate directory are retried up to five times.  
Disable – Disables call retry. If a call setup cannot be completed it is not retried.  
NOTE: This configuration option is only available if the communication port is  
enabled for an external device.  
Dial Out Delay Time (min):  
5
8
1
2
3
4
5
6
7
9
10  
Specifies the number of minutes to wait between successive dial-out alarms or traps  
and between retry attempts after failed alarm dial-outs.  
NOTE: This configuration option is only available if the communication port is enabled  
for an external device.  
Alternate Dial-Out Directory: None  
None  
1
2
3
4
5
Specifies whether a call that cannot be completed (busy, no answer, etc.) is retried  
using an alternate phone number. This affects calls that are initiated in an attempt to  
send an alarm or trap message to the external communication port device. The  
alternate phone number to try is contained in one of the five call directories. If call retry  
is enabled, the initial call is retried at the original number once before a call attempt to  
the alternate number is tried. If the call is not completed at the alternate number, it is  
also retried once. The alternate dial-out option applies to each alarm/trap event. Once a  
call for an alarm/trap message either completes or fails all retry attempts, the next  
alarm/trap attempts to establish a call to the phone number contained in the alarm  
directory.  
None – Specifies that alternate alarm dial-out is not attempted.  
1–5 – Specifies the call directory that contains the phone number to call if a call cannot  
be completed to the telephone number contained in the alarm directory.  
NOTE: This configuration option is only available if the communication port is  
enabled for an external device.  
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Configuration Options  
Management and Communication Configuration  
Options  
The Management configuration options are divided into four tables as follows:  
H
H
Communication Protocol Configuration Options (Table C-12)  
General SNMP Management Configuration Options (Table C-13)  
H
H
Communication Protocol Configuration Options  
Table C-12. Communication Protocol Configuration Options (1 of 3)  
Node IP Address: Text Field  
Text Field Clear  
Specifies the IP address needed to access the DSU/CSU. Since this IP Address is not  
bound to a particular port, it can be used for remote access via the FDL or EDL  
management link.  
Text Field – Allows you to edit or display the IP address for the DSU/CSU.  
Clear – Allows you to clear the IP address for the DSU/CSU. The IP address is set to  
000.000.000.000.  
Node Subnet Mask: Text Field  
Text Field Clear  
Specifies the subnet mask needed to access the DSU/CSU. Since this subnet mask is  
not bound to a particular port, it can be used for remote access via the FDL or EDL  
management link.  
Text Field – Allows you to edit or display the subnet mask for the DSU/CSU.  
Clear – Allows you to clear the subnet mask for the DSU/CSU. The subnet mask is set  
to 000.000.000.000. If the subnet mask is 000.000.000.000, the IP protocol creates a  
default subnet mask based on the class of the IP address (Class A: 255.000.000.000,  
Class B: 255.255.000.000, or Class C: 255.255.255.000).  
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Configuration Options  
Table C-12. Communication Protocol Configuration Options (2 of 3)  
Default Net Destination: None  
None Com Aux FDL EDL1 EDL2  
Specifies where the default network is connected. For example, if the default network is  
connected to the communication port, you select Com. If the default network is  
connected to the far-end 31xx Series device over the FDL, you select FDL. The routing  
protocol uses the default network destination to route data that does not have a specific  
route.  
None – No default network destination. Data that cannot be routed is discarded.  
Com – The default network destination is the communication port. This selection only  
appears if the Port Use configuration option is set to Mgmt.  
Aux – The default network destination is the auxiliary port. This selection only appears if  
the Port Use configuration option is set to Mgmt.  
FDL – The default network destination is FDL. This selection only appears if the FDL  
management link is enabled.  
EDLn – The default network destination is the EDLn port (where n is 1 or 2). This  
selection only appears if the synchronous data port’s EDL management link is enabled.  
NOTE: If the chosen default network link is disabled or down, data is discarded.  
Choose another default network.  
Communication Port IP Address: Text Field  
Text Field Clear  
Specifies the IP address for the communication port if the Port Use configuration option  
is set to Mgmt or Daisy.  
Text Field – Allows you to edit or display the IP address for the communication port.  
Clear – Allows you to clear the IP address for the communication port. The IP address  
is set to 000.000.000.000.  
Communication Port Subnet Mask: Text Field  
Text Field Clear  
Specifies the subnet mask for the communication port if the Port Use configuration  
option is set to Mgmt or Daisy.  
Text Field – Allows you to edit or display the subnet mask for the communication port.  
Clear – Allows you to clear the subnet mask for the communication port. The subnet  
mask is set to 000.000.000.000. If the subnet mask is 000.000.000.000, the IP protocol  
creates a default subnet mask based on the class of the IP address (Class A:  
255.000.000.000, Class B: 255.255.000.000, or Class C: 255.255.255.000).  
Com Link Protocol: PPP  
PPP SLIP  
Specifies the link layer protocol for the communication port if the Port Use configuration  
option is set to Mgmt or Daisy.  
PPP – Specifies PPP as the link layer protocol for the IP management link on the  
communication port.  
SLIP – Specifies SLIP as the link layer protocol for the IP management link on the  
communication port. The communication port must be configured for asynchronous  
operation to support SLIP. This selection does not appear if the Port Use configuration  
option is set to Daisy.  
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Configuration Options  
Table C-12. Communication Protocol Configuration Options (3 of 3)  
Auxiliary Port IP Address: Text Field  
Text Field Clear  
Specifies the IP address for the auxiliary port if the Port Use configuration option is set  
to Mgmt or Daisy. The auxiliary port only supports the PPP link protocol.  
Text Field – Allows you to edit or display the IP address for the auxiliary port.  
Clear – Allows you to clear the IP address for the auxiliary port. The IP address is set to  
000.000.000.000.  
Auxiliary Port Subnet Mask: Text Field  
Text Field Clear  
Specifies the subnet mask for the auxiliary port if the Port Use configuration option is set  
to Mgmt or Daisy.  
Text Field – Allows you to edit or display the subnet mask for the auxiliary port.  
Clear – Allows you to clear the subnet mask for the auxiliary port. The subnet mask is  
set to 000.000.000.000. If the subnet mask is 000.000.000.000, the IP protocol creates  
a default subnet mask based on the class of the IP address (Class A: 255.000.000.000,  
Class B: 255.255.000.000, or Class C: 255.255.255.000).  
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Configuration Options  
General SNMP Management Configuration Options  
Table C-13. General SNMP Management Configuration Options  
SNMP Management: Disable  
Enable Disable  
Specifies whether the DSU/CSU responds to SNMP session requests.  
Enable – The DSU/CSU responds to SNMP session requests.  
Disable – The DSU/CSU does not respond to SNMP session requests.  
Community Name 1: Text Field  
Text Field Clear  
Specifies the first of two community names that are allowed to access this unit’s  
Management Information Base (MIB). External SNMP managers must supply this name  
to access an object in the MIB.  
Text Field – Allows you to edit or display the first community name.  
Clear – Allows you to clear the first community name.  
Name 1 Access: Read  
Read Read/Write  
Specifies the type of access allowed for Community Name 1. This is the type of access  
allowed for external SNMP managers accessing objects in the MIB using Community  
Name 1.  
Read – Allows read-only access (SNMP Get) to the accessible objects in the MIB for  
this device if community name 1 is used. This includes all objects specified as either  
read-only or read/write in the MIB RFCs.  
Read/Write – Allows read and write access (SNMP Get and Set) to the objects in the  
MIB for this device if community name 1 is used. Write access is allowed for all objects  
specified as read/write in the MIB RFCs. Read access is allowed for all objects  
specified as either read-only or read/write.  
Community Name 2: Text Field  
Text Field Clear  
Specifies the second of two community names that are allowed to access this unit’s  
Management Information Base (MIB). External SNMP managers must supply this name  
to access an object in the MIB.  
Text Field – Allows you to edit or display the second community name.  
Clear – Allows you to clear the second community name.  
Name 2 Access: Read  
Read Read/Write  
Specifies the type of access allowed for Community Name 2. This is the type of access  
allowed for external SNMP managers accessing objects in the MIB using Community  
Name 2.  
Read – Allows read-only access (SNMP Get) to the accessible objects in the MIB for  
this device if community name 2 is used. This includes all objects specified as either  
read-only or read/write in the MIB RFCs.  
Read/Write – Allows read and write access (SNMP Get and Set) to the objects in the  
MIB for this device if community name 2 is used. Write access is allowed for all objects  
specified as read/write in the MIB RFCs. Read access is allowed for all objects  
specified as either read-only or read/write.  
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Configuration Options  
SNMP NMS Security Configuration Options  
Table C-14. SNMP NMS Security Configuration Options  
NMS IP Validation: Disable  
Enable Disable  
Specifies whether the DSU/CSU validates (for security reasons) the IP address of an  
SNMP manager attempting to access the DSU/CSU. Allowable addresses are specified  
using the NMS n IP Adr configuration option.  
Enable – The DSU/CSU validates the IP address of SNMP managers attempting to  
access the DSU/CSU.  
Disable – The DSU/CSU does not validate the IP address of SNMP managers.  
Number of Managers:  
1
7
1
2
3
4
5
6
8
9
10  
Specifies the number of SNMP managers that are allowed to access the DSU/CSU.  
NOTE: You must configure an IP address for each SNMP manager that is allowed  
access to the DSU/CSU. Allowable addresses are specified using the NMS  
n IP Adr configuration option.  
NMS n IP Address: Text Field  
Text Field Clear  
Specifies the allowable IP address of an SNMP manager attempting to access the  
DSU/CSU. The manager number (n) is specified by the Number of Managers  
configuration option.  
Text Field – Allows you to edit or display the allowable IP address for the SNMP  
manager.  
Clear – Allows you to clear the allowable IP address for the SNMP manager. The IP  
address is set to 000.000.000.000.  
Access Level: Read  
Read Read/Write  
Specifies the allowable type of access for an authorized SNMP manager if IP address  
validation has occurred.  
Read – Allows read-only access (SNMP Get) to the accessible objects in the MIB for  
this device. This includes all objects specified as either read-only or read/write in the  
MIB RFCs.  
Read/Write – Allows read and write access (SNMP Get and Set) to the objects in the  
MIB for this device. Write access is allowed for all objects specified as read/write in the  
MIB RFCs. Read access is allowed for all objects specified as either read-only or  
read/write.  
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Configuration Options  
SNMP Traps Configuration Options  
Table C-15. SNMP Traps Configuration Options (1 of 3)  
SNMP Traps: Disable  
Enable Disable  
Specifies whether SNMP trap messages are sent over the SNMP management link.  
Enable – Enables sending SNMP trap messages from this unit over any SNMP  
management link.  
Disable – Disables sending SNMP trap messages from this unit over any SNMP  
management link.  
Number of Trap Managers:  
1
1
2
3
4
5
6
Specifies the number of SNMP trap managers that are to receive traps for this unit.  
NOTE: You must configure an IP address for each trap manager that is to receive  
trap messages.  
NMS n IP Address: Text Field  
Text Field Clear  
Specifies the IP address for each trap manager. This configuration option is repeated for  
all trap managers supported by the unit.  
Text Field – Allows you to edit or display the IP address for Trap Manager n.  
Clear – Allows you to clear the IP address for Trap Manager n. The IP address is set to  
000.000.000.000.  
Destination: None  
None Com Aux FDL EDL1 EDL2  
Specifies the network destination for Trap Manager n. This configuration option is  
displayed for the number of trap managers (n) specified by the Number of Trap  
Managers configuration option.  
None – No Trap Manager n network destination. Traps are discarded.  
Com – The Trap Manager n network destination is the communication port. This  
selection only appears if the Port Use configuration option is set to Mgmt or Daisy.  
Aux – The Trap Manager n network destination is the auxiliary port. This selection only  
appears if the Port Use configuration option is set to Mgmt or Daisy.  
FDL – The Trap Manager n network destination is the FDL management link. This  
selection only appears if the FDL management link is enabled.  
EDLn – The Trap Manager n network destination is the EDLn port (where n is 1 or 2).  
This selection only appears if the synchronous data port’s EDL management link is  
enabled.  
NOTE: If the chosen destination link is disabled or down, the traps are discarded.  
Choose another destination.  
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Configuration Options  
Table C-15. SNMP Traps Configuration Options (2 of 3)  
General Traps: Both  
Disable Warm AuthFail Both  
Specifies the general trap types to enable.  
Disable – Disables the sending of trap messages for warmStart and  
authenticationFailure events.  
Warm – Sends trap messages for warmStart events to the currently configured trap  
manager(s).  
AuthFail – Sends trap messages for authenticationFailure events to the currently  
configured trap manager(s).  
Both – Sends trap messages for warmStart and authenticationFailure events to the  
currently configured trap manager(s).  
NOTE: This configuration option is not available if the SNMP Traps configuration  
option is disabled.  
Enterprise Specific Traps: Enable  
Enable Disable  
Specifies whether enterpriseSpecific traps are enabled.  
Enable – Sends trap messages for enterpriseSpecific events to the currently configured  
trap manager(s).  
Disable – Disables the sending of trap messages for enterpriseSpecific events.  
NOTE: This configuration option is not available if the SNMP Traps configuration  
option is disabled.  
Link Traps: Both  
Disable Up Down Both  
Specifies the link trap type to enable. Interfaces monitored for linkUp and linkDown  
traps are specified with the Link Trap Interfaces configuration option.  
Disable – Disables the sending of trap messages for linkDown or linkUp events.  
Up – Sends trap messages for linkUp events to the currently configured trap  
manager(s).  
Down – Sends trap messages for linkDown events to the currently configured trap  
manager(s).  
Both – Sends trap messages for linkUp and linkDown events to the currently configured  
trap manager(s).  
NOTE: This configuration option is not available if the SNMP Traps configuration  
option is disabled.  
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Configuration Options  
Table C-15. SNMP Traps Configuration Options (3 of 3)  
Link Trap Interfaces: All  
Network DTE T1s Ports All  
Specifies which interfaces generate linkUp and linkDown trap messages. These traps  
are supported on the T1 interfaces (network and DTE Drop/Insert) and the synchronous  
data ports.  
Network – Sends trap messages for linkUp and linkDown events occurring on the  
network interface.  
DTE – Sends trap messages for linkUp and linkDown events occurring on the DTE  
Drop/Insert (DSX-1) interface. This selection does not appear if the DTE Drop/Insert  
(DSX-1) interface is disabled.  
T1s – Sends trap messages for linkUp and linkDown events occurring on the network or  
DTE Drop/Insert (DSX-1) interface.  
Ports – Sends trap messages for linkUp and linkDown events occurring on the  
synchronous data ports.  
All – Sends trap messages for linkUp and linkDown events occurring on the network  
interface, DTE Drop/Insert (DSX-1) interface, or the synchronous data ports.  
NOTE: This configuration option is not available if the Link Traps configuration  
option is not configured to generate trap messages for linkUp or linkDown  
events.  
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Configuration Options  
Configuration Worksheets  
This section contains one set of blank worksheets to be used when configuring  
your DSU/CSU using the async terminal interface. In the tables, default settings  
for Factory 1 are indicated by bold type. It is recommended that you copy these  
blank worksheets before using them.  
Network Interface Options  
Line Framing Format  
Line Coding Format  
Bit Stuffing  
Value (Default in Bold)  
D4, ESF  
AMI, B8ZS  
62411, Part68, Disable  
0.0, –7.5, –15, –22.5  
Enable, Disable  
Enable, Disable  
Line Build Out (LBO)  
Management Link  
ANSI Performance Report Mes-  
sages  
Network Initiated LLB  
Network Initiated PLB  
Circuit Identifier  
Enable, Disable  
Enable, Disable  
Text Field, Clear  
DTE Interface Options  
Interface Status  
Value (Default in Bold)  
Enable, Disable  
Line Framing Format  
Line Coding Format  
D4, ESF  
AMI, B8ZS  
Line Equalization  
0133, 133266, 266399, 399533, 533655  
Enable, Disable  
DTE LB on External Contact  
Send All Ones on DTE Failure  
Enable, Disable  
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Configuration Options  
Sync Data Port Options (Port 1)  
Port Type  
Value (Default in Bold)  
E530, V.35, RS449, X.21  
Nx64, Nx56  
Port Base Rate  
Transmit Clock Source  
Internal, External  
Enable, Disable  
Invert Transmit Clock  
Invert Transmit and Received Data  
Send All Ones on Data Port Not Ready  
Action on Network Yellow Alarm  
Network Init. Data Channel Loopback  
Port (DTE) Initiated Loopbacks  
Embedded Data Link  
Enable, Disable  
Disable, DTR, RTS, Both  
None, Halt  
Disable, V.54, FT1, Both  
Disable, DTLB, DCLB, Both  
Enable, Disable  
EDL Management Link  
Enable, Disable  
Excessive Error Rate Threshold  
10E4, 10E–5, 10E6, 10E–7, 10E–8,  
10E–9  
Near-End Performance Statistics  
Far-End Performance Statistics  
Disable, Maintain, Send, Both  
Disable, Maintain  
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Configuration Options  
Sync Data Port Options (Port 2)  
Port Type  
Value (Default in Bold)  
E530, V.35, RS449, X.21  
Nx64, Nx56  
Port Base Rate  
Transmit Clock Source  
Internal, External  
Enable, Disable  
Invert Transmit Clock  
Invert Transmit and Received Data  
Send All Ones on Data Port Not Ready  
Action on Network Yellow Alarm  
Network Init. Data Channel Loopback  
Port (DTE) Initiated Loopbacks  
Embedded Data Link  
Enable, Disable  
Disable, DTR, RTS, Both  
None, Halt  
Disable, V.54, FT1, Both  
Disable, DTLB, DCLB, Both  
Enable, Disable  
EDL Management Link  
Enable, Disable  
Excessive Error Rate Threshold  
10E4, 10E–5, 10E6, 10E–7, 10E–8,  
10E–9  
Near-End Performance Statistics  
Far-End Performance Statistics  
Disable, Maintain, Send, Both  
Disable, Maintain  
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Configuration Options  
Network Interface  
Network Channel  
Allocation  
N1  
N2  
N3  
N4  
N5  
N6  
N7  
N8  
N9  
N10  
N11  
N12  
N13  
N14  
N15  
N16  
N17  
N18  
N19  
N20  
N21  
N22  
N23  
N24  
Allocations  
N1 – N24 indicates allocation to DTE (Drop/Insert) channels.  
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Configuration Options  
DTE Drop/Insert (DSX-1) Interface  
DTE (DSX-1) Channel  
Allocation  
D1  
D2  
D3  
D4  
D5  
D6  
D7  
D8  
D9  
D10  
D11  
D12  
D13  
D14  
D15  
D16  
D17  
D18  
D19  
D20  
D21  
D22  
D23  
D24  
Allocations  
D1 – D24 indicates allocation to network channels.  
March 1999  
3162-A2-GB20-30  
C-38  
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Configuration Options  
DTE Signaling  
D1  
Assign: (N1 – 24)  
Voice RBS or Data)  
D2  
D3  
D4  
D5  
D6  
D7  
D8  
D9  
D10  
D11  
D12  
D13  
D14  
D15  
D16  
D17  
D18  
D19  
D20  
D21  
D22  
D23  
D24  
3162-A2-GB20-30  
March 1999  
C-39  
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Configuration Options  
Sync Data Port  
Channel  
Options  
Value (Default in Bold)  
Network, DTE, Port 2  
Block, ACAMI, Channel  
Assign To  
Assign By  
Port Rate  
Nx64: 64, 128, 192, 256, 320, 384, 448, 512, 576,  
640, 704, 768, 832, 896, 960, 1024, 1088, 1152,  
1216, 1280, 1344, 1408, 1472, 1536  
Nx56: 56, 112, 168, 224, 280, 336, 392, 448, 504,  
560, 616, 672, 728, 784, 840, 896, 952, 1008, 1064,  
1120, 1176, 1232, 1288, 1344  
If Assign By Block  
Start At  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24  
(Select One)  
Port 1  
Port Rate  
Nx64: 64, 128, 192, 256, 320, 384, 448, 512, 576,  
640, 704, 768  
Nx56: 56, 112, 168, 224, 280, 336, 392, 448, 504,  
560, 616, 672  
If Assign By  
ACAMI  
Start At  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23  
(Select One)  
If Assign By  
Channel  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24  
(Select Multiple)  
Assign To  
Assign By  
Network, DTE, Port 1  
Block, ACAMI, Channel  
Port Rate  
Nx64: 64, 128, 192, 256, 320, 384, 448, 512, 576,  
640, 704, 768, 832, 896, 960, 1024, 1088, 1152,  
1216, 1280, 1344, 1408, 1472, 1536  
Nx56: 56, 112, 168, 224, 280, 336, 392, 448, 504,  
560, 616, 672, 728, 784, 840, 896, 952, 1008, 1064,  
1120, 1176, 1232, 1288, 1344  
If Assign By Block  
Start At  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24  
(Select One)  
Port 2  
Port Rate  
Nx64: 64, 128, 192, 256, 320, 384, 448, 512, 576,  
640, 704, 768  
Nx56: 56, 112, 168, 224, 280, 336, 392, 448, 504,  
560, 616, 672  
If Assign By  
ACAMI  
Start At  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23  
(Select One)  
If Assign By  
Channel  
Time Slot (Nx or Dx): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,  
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24  
(Select Multiple)  
March 1999  
3162-A2-GB20-30  
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Configuration Options  
General Options  
Value (Default in Bold)  
Generate Yellow Alarm Signals  
Initial Self Test  
Enable, Disable  
Enable, Disable  
Primary Clock Source  
External Clock Rate (KHz)  
Test Timeout  
Network, DTE, Internal, External, Port 1  
2048, 1544, 8  
Enable, Disable  
Test Duration  
1120 (Default = 10)  
User Interface: Communication Port  
Options  
Value (Default in Bold)  
Mgmt, ASCII, Daisy, Terminal  
Asynchronous, Synchronous  
Internal, External  
1.2, 2.4, 4.8, 9.6, 14.4, 19.2, 38.4  
7, 8  
Port Use  
Port Type  
Clock Source  
Data Rate  
Character Length  
Parity  
None, Even, Odd  
1, 1.5, 2  
Stop Bits  
Ignore Control Leads  
Password Required  
Inactivity Timeout  
Disconnect Time  
Disable, DTR  
Enable, Disable  
Enable, Disable  
160 (Default = 5)  
User Interface: External Device Options Value (Default in Bold)  
External Device Commands  
Dial-In Access  
Disable, AT, Other  
Enable, Disable  
Connect Prefix  
Text Field, Clear  
Text Field, Clear  
Text Field, Clear  
None, 0.2, 0.4, 0.6, 0.8, 1.0  
Text Field, Clear  
Connect Indication String  
Escape Sequence  
Escape Sequence Delay (sec)  
Disconnect String  
3162-A2-GB20-30  
March 1999  
C-41  
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Configuration Options  
User Interface: Telnet Sessions Options Value (Default in Bold)  
Telnet Session  
Enable, Disable  
Enable, Disable  
Enable, Disable  
160 (Default = 5)  
Password Required  
Inactivity Timeout  
Disconnect Time  
User Interface: Auxiliary Port Options  
Port Use  
Value (Default in Bold)  
None, Mgmt, Daisy  
9.6, 14.4, 19.2, 38.4  
Data Rate (Kbps)  
Alarm and Trap Configuration Options Value (Default in Bold)  
ASCII Alarm Messages  
Alarm & Trap Dial-Out  
Trap Disconnect  
Disable, Com Port  
Enable, Disable  
Enable, Disable  
Call Retry  
Enable,Disable  
Dial Out Delay Time (min)  
Alternate Dial-Out Directory  
1, 2, 3, 4, 5, 6, 7, 8, 9, 10  
None, 1, 2, 3, 4, 5  
March 1999  
3162-A2-GB20-30  
C-42  
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Configuration Options  
Management and Communication:  
Communication Protocol Options  
Value (Default in Bold)  
Node IP Address  
Text Field, Clear  
Text Field, Clear  
None, Com, Aux, FDL, EDL1, EDL2  
Text Field, Clear  
Text Field, Clear  
PPP, SLIP  
Node Subnet Mask  
Default Network Destination  
Communication Port IP Address  
Communication Port Subnet Mask  
Com Link Protocol  
Auxiliary Port IP Address  
Auxiliary Port Subnet Mask  
Text Field, Clear  
Text Field, Clear  
Management and Communication:  
General SNMP Management Options  
Value (Default in Bold)  
Enable, Disable  
Text Field, Clear  
Read, R/W  
SNMP Management  
Community Name 1  
Name 1 Access  
Community Name 2  
Name 2 Access  
Text Field, Clear  
Read, R/W  
Management and Communication:  
SNMP NMS Security Options  
Value (Default in Bold)  
Enable, Disable  
NMS IP Validation  
Number of Managers  
NMS n IP Address  
Access Level  
1, 2, 3, 4, 5, 6, 7, 8, 9, 10  
Text Field, Clear  
Read, R/w  
3162-A2-GB20-30  
March 1999  
C-43  
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Configuration Options  
Management and Communication:  
SNMP Traps Options  
Value (Default in Bold)  
Enable, Disable  
SNMP Traps  
Number of Trap Managers  
NMS n IP Address  
Destination  
1, 2, 3, 4, 5, 6  
Text Field, Clear  
None, Com, Aux, FDL, EDL1, EDL2  
Disable, Warm, AuthFail, Both  
Enable, Disable  
General Traps  
Enterprise Specific Traps  
Link Traps  
Disable, Up, Down, Both  
Network, DTE, T1s, Ports, All  
Link Trap Interfaces  
March 1999  
3162-A2-GB20-30  
C-44  
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Pin Assignments  
D
Overview  
The DSU/CSU is shipped with a power module. Various other interconnecting  
List. This appendix describes connector pin assignments and cables.  
T1 Network Interface  
The T1 network interface connector is an RJ48C, 8-position, unkeyed modular  
jack (Table D-1).  
The T1 line interface cable is a 20-foot, 24 AWG solid, 2-twisted-pair cable that is  
Table D-1. T1 Network Interface Connector  
Signal  
Pin Number  
Receive Ring  
Receive Tip  
Transmit Ring  
Transmit Tip  
1
2
4
5
3162-A2-GB20-30  
March 1999  
D-1  
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Pin Assignments  
Figure D-1. T1 Line Interface Cable, RJ48C-to-RJ48C  
Figure D-2. T1 Line Interface Cable, RJ48C-to-DA15P  
March 1999  
3162-A2-GB20-30  
D-2  
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Pin Assignments  
DTE Drop/Insert Interface  
The DTE Drop/Insert (DSX-1) interface connector is a DB15-type socket  
connector (Table D-2). For information about using Relay Contact Sense for  
external DTE loopback, refer to the DTE LB on Contact configuration option in  
The DTE Drop/Insert (DSX-1) cable (Figure D-3) is typically supplied by a DTE  
vendor. It is made of shielded twisted-pair wires (22 AWG). The cable connector  
is a DB15-type plug connector. Be sure to connect the shield ground only at the  
DSU/CSU end to prevent ground loops.  
Table D-2. DTE Drop/Insert (DSX-1 Connector)  
Signal  
Pin Number  
Receiver Tip from DTE  
Receiver Ring from DTE  
Transmitter Tip to DTE  
Transmitter Ring to DTE  
Relay Contact Sense Return  
Relay Contact Sense  
Shield Ground  
1
9
3
11  
12  
14  
2,4  
Figure D-3. DTE Drop/Insert (DSX-1) Cable  
3162-A2-GB20-30  
March 1999  
D-3  
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Pin Assignments  
AUX Port Interface  
The Auxiliary (AUX) port connects to the LAN Adapter for SNMP or Telnet  
applications, or to another DSU/CSU’s COM port for daisy chain connectivity.  
(The SNMP LAN Adapter includes the cable that is needed to attach it to the  
DSU/CSU.) The AUX port connector is an 8-pin modular connector (Table D-3).  
NOTE:  
For daisy-chaining an AUX port to a COM port, a customer-supplied  
8-pin-to-8-pin, straight-through cable is required and the appropriate  
configuration options (Com Use and Aux Use) must be set to Daisy.  
Whenever the cable is connected or disconnected, you should change the  
Daisy selection to ensure that the correct parameters have been negotiated  
for the link layer.  
Table D-3. AUX Port Connector  
Signal  
Direction  
Pin Number  
DTE Transmit Clock  
DTE Receive Data  
Signal Ground  
From DSU/CSU  
To DSU/CSU  
1
2
3
4
8
DTE Transmit Data  
DTE Receive Clock  
From DSU/CSU  
From DSU/CSU  
March 1999  
3162-A2-GB20-30  
D-4  
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Pin Assignments  
COM Port Interface  
The COM port connects to a PC for front panel emulation, to an ASCII terminal or  
printer for alarms, to an async terminal, to a network device (e.g., a router) for  
SNMP or Telnet applications, to the LAN Adapter for SNMP or Telnet  
applications, or to another DSU/CSU’s AUX port for daisy chain connectivity.  
(The SNMP LAN Adapter includes the cable that is needed to attach it to the  
DSU/CSU.) The COM port connector is an 8-position keyed modular connector  
(Table D-4). The data signals on this port are referenced to a DTE interface.  
NOTE:  
For daisy-chaining an AUX port to a COM port, a customer-supplied,  
8-pin-to-8-pin, straight-through cable is required and the appropriate  
configuration options (Com Use and Aux Use) must be set to Daisy.  
Whenever the cable is connected or disconnected, you should change the  
Daisy selection to ensure that the correct parameters have been negotiated  
for the link layer.  
Table D-4. COM Port Connector  
Signal  
Direction  
Pin Number  
DCE Transmit Clock  
DCE Receive Data  
Signal Ground  
From DSU/CSU  
From DSU/CSU  
1
2
3
4
5
6
7
8
DCE Transmit Data  
DCE Data Terminal Ready  
DCE Carrier Detect  
DCE Request-to-Send  
DCE Receive Clock  
To DSU/CSU  
To DSU/CSU  
From DSU/CSU  
To DSU/CSU  
From DSU/CSU  
3162-A2-GB20-30  
March 1999  
D-5  
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Pin Assignments  
Figure D-4. COM Port-to-PC Cable  
Figure D-5. COM Port-to-Terminal/Printer Cable  
March 1999  
3162-A2-GB20-30  
D-6  
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Pin Assignments  
EIA-530-A Port Interface Connector  
The EIA-530-A Port interface connector information is shown in Table D-5.  
Table D-5. EIA-530-A Port Interface Connector  
Circuit CCITT  
Signal  
Direction  
Pin  
1
Mnemonic Number  
Shield  
Signal Common  
Signal Common  
Transmitted Data  
AB  
AC  
BA  
102A  
102B  
103  
7
23  
To DSU/CSU 2 (A)  
14 (B)  
Received Data  
Request-to-Send  
Clear-to-Send  
BB  
CA  
CB  
CF  
CC  
104  
105  
106  
109  
107  
From  
DSU/CSU  
3 (A)  
16 (B)  
To DSU/CSU 4 (A)  
19 (B)  
From  
DSU/CSU  
5 (A)  
13 (B)  
Received Line Signal  
Detector  
From  
DSU/CSU  
8 (A)  
10 (B)  
DCE Ready  
From  
6
DSU/CSU  
DTE Ready  
CD  
DA  
108/1, /2  
113  
To DSU/CSU 20  
Transmit Signal Element  
Timing (DTE Source)  
To DSU/CSU 11 (B)  
24 (A)  
Transmit Signal Element  
Timing (DCE Source)  
DB  
DD  
114  
115  
From  
DSU/CSU  
12 (B)  
15 (A)  
Receiver Signal Element  
Timing (DCE Source)  
From  
DSU/CSU  
17 (A)  
9 (B)  
Local Loopback  
Remote Loopback  
Test Mode  
LL  
141  
140  
142  
To DSU/CSU 18  
To DSU/CSU 21  
RL  
TM  
From  
25  
DSU/CSU  
3162-A2-GB20-30  
March 1999  
D-7  
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Pin Assignments  
EIA-530-A-to-RS449 Adapter  
The EIA-530-A-to-RS449 adapter (Figure D-6) provides the RS449 interface  
530  
SIGNAL  
DB37 449  
SOCKET SIGNAL  
DB25  
PLUG  
SHIELD  
TD-A  
1
1
SHIELD  
TD-A  
2
4
TD-B  
14  
3
22  
6
TD-B  
RD-A  
RD-A  
RD-B  
16  
15  
12  
17  
9
24  
5
RD-B  
TXC-A  
TXC-B  
RXC-A  
RXC-B  
RTS-A  
RTS-B  
CTS-A  
CTS-B  
DTR  
TXC-A  
TXC-B  
RXC-A  
RXC-B  
RTS-A  
RTS-B  
CTS-A  
CTS-B  
DTR-A  
RR-A  
23  
8
26  
7
4
19  
5
25  
9
13  
20  
8
27  
12  
13  
31  
11  
19  
14  
10  
20  
17  
35  
18  
RLSD-A  
RLSD-B  
DSR  
10  
6
RR-B  
DM-A  
SIG. COMMON  
RL  
7
SIG. COMMON  
RL  
21  
18  
23  
24  
11  
25  
22  
LL  
LL  
RCV. COMMON  
TT-A  
RCV. COMMON  
TT-A  
TT-B  
TT-B  
TM  
TM  
SIG. COMMON  
29  
30  
DM-B  
DTR-B  
495-14323-01  
Figure D-6. EIA-530-A-to-RS449 Adapter  
March 1999  
3162-A2-GB20-30  
D-8  
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Pin Assignments  
Table D-6. RS449 Cable Interface  
Circuit  
CCITT  
Signal  
Direction  
Pin  
1
Mnemonic Number  
Shield  
Signal Ground  
Receive Ground  
Send Common  
Send Data  
SG  
RC  
SC  
SD  
102A  
102B  
19  
20  
37  
103  
To DSU/CSU  
4 (A)  
22 (B)  
Receive Data  
Request-to-Send  
Clear-to-Send  
Receiver Ready  
Data Mode  
RD  
RS  
CS  
RR  
DM  
TR  
TT  
104  
From DSU/CSU  
To DSU/CSU  
6 (A)  
24 (B)  
105  
7 (A)  
25 (B)  
106  
From DSU/CSU  
From DSU/CSU  
From DSU/CSU  
To DSU/CSU  
9 (A)  
27 (B)  
109  
13 (A)  
31 (B)  
107  
11 (A)  
29 (B)  
Terminal Ready  
Terminal Timing  
Send Timing  
108/1, /2  
113  
12 (A)  
30 (B)  
To DSU/CSU  
17 (A)  
35 (B)  
ST  
RT  
114  
From DSU/CSU  
From DSU/CSU  
5 (A)  
23 (B)  
Receive Timing  
115  
8 (A)  
26 (B)  
Local Loopback  
Remote Loopback  
Test Mode  
LL  
141  
140  
142  
To DSU/CSU  
To DSU/CSU  
From DSU/CSU  
10  
14  
18  
RL  
TM  
3162-A2-GB20-30  
March 1999  
D-9  
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Pin Assignments  
EIA-530-A-to-V.35 Adapter  
The EIA-530-A-to-V.35 adapter (Figure D-7) provides the V.35 interface shown in  
530 DB25  
SIGNAL PLUG  
V.35  
SIGNAL  
MS34  
SOCKET  
SHIELD  
TD-A  
1
2
A
P
S
R
T
Y
SHIELD  
TD-A  
TD-B 14  
RD-A  
TD-B  
3
RD-A  
RD-B 16  
TXC-A 15  
TXC-B 12  
RXC-A 17  
RD-B  
TXC-A  
AA TXC-B  
V
X
C
D
F
RXC-A  
RXC-B  
RTS  
RXC-B  
RTS  
9
4
5
8
6
7
CTS  
CTS  
RLSD  
RLSD  
DSR  
DSR  
E
B
U
W
H
N
L
SIG. COMMON  
SIG. COMMON  
TT-A  
TT-A 24  
TT-B 11  
TT-B  
DTR 20  
DTR  
RL 21  
RL  
LL 18  
LL  
TM 25  
NN TM  
SIG. COMMON 23  
497-15233  
Figure D-7. EIA-530-A-to-V.35 Adapter  
March 1999  
3162-A2-GB20-30  
D-10  
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Pin Assignments  
Table D-7. V.35 Cable Interface  
CCITT  
Signal  
Direction  
Pin  
A
Number  
Shield  
Signal Common  
Transmitted Data  
102  
B
103  
To DSU/CSU  
P (A)  
S (B)  
Received Data  
104  
From DSU/CSU  
R (A)  
T (B)  
Request to Send  
Clear to Send  
105  
106  
109  
To DSU/CSU  
C
D
F
From DSU/CSU  
From DSU/CSU  
Data Channel Received  
Line Signal Detector  
Data Set Ready  
107  
From DSU/CSU  
E
H
Data Terminal Ready  
108/1, /2 To DSU/CSU  
Transmit Signal Element  
Timing (DTE Source)  
113  
114  
115  
To DSU/CSU  
U (A)  
W (B)  
Transmit Signal Element  
Timing (DCE Source)  
From DSU/CSU  
From DSU/CSU  
Y (A)  
AA (B)  
Receiver Signal Element  
Timing (DCE Source)  
V (A)  
X (B)  
Local Loopback  
141  
140  
142  
To DSU/CSU  
To DSU/CSU  
From DSU/CSU  
L
Loopback/Maintenance  
Test Indicator  
N
NN  
3162-A2-GB20-30  
March 1999  
D-11  
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Pin Assignments  
EIA-530-A-to-X.21 Adapter  
The EIA-530-A-to-X.21 adapter (Figure D-8) provides the X.21 interface shown in  
530 DB25  
SIGNAL PLUG  
X.21  
SIGNAL  
DB15  
SOCKET  
TD-A  
TD-B  
2
14  
3
2
9
TD-A  
TD-B  
RD-A  
4
RD-A  
RD-B  
16  
17  
9
11  
6
RD-B  
RXC-A  
RXC-A  
RXC-B  
RTS-A  
RTS-B  
RLSD-A  
RLSD-B  
SIG. COMMON  
TT-A  
RXC-B  
13  
3
RTS-A  
4
RTS-B  
19  
8
10  
5
RLSD-A  
RLSD-B  
SIG. COMMON  
TT-A  
10  
7
12  
8
24  
11  
7
TT-B  
14  
TT-B  
495-14787  
Figure D-8. EIA-530-A-to-X.21 Adapter  
Table D-8. X.21 Cable Interface  
Signal  
CCITT  
Number  
Direction  
Pin  
Signal Common  
Transmitted Data  
102  
103  
8
To DSU/CSU  
2 (A)  
9 (B)  
Received Data  
104  
105  
109  
113  
115  
From DSU/CSU 4 (A)  
11 (B)  
Request-to-Send  
To DSU/CSU  
3 (A)  
10 (B)  
Data Channel Received Line Signal Detector  
Transmit Signal Element Timing (DTE Source)  
Receiver Signal Element Timing (DCE Source)  
From DSU/CSU 5 (A)  
12 (B)  
To DSU/CSU  
7 (A)  
14 (B)  
From DSU/CSU 6 (A)  
13 (B)  
March 1999  
3162-A2-GB20-30  
D-12  
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Pin Assignments  
Serial Crossover Cable  
Use a serial crossover cable like the one shown in Figure D-9 (with an adapter  
COM port.  
Pin 14  
Pin 1  
P1  
Plug  
P2  
Plug  
Pin 14  
Pin 1  
Pin 25  
Pin 13  
Pin 25  
Pin 13  
P1  
Pin  
Pin  
P2  
Chassis Ground  
TXD  
1
Chassis Ground  
TXD  
1
2
2
RXD  
3
RXD  
3
RTS  
4
RTS  
4
CTS  
5
CTS  
5
DSR  
6
DSR  
6
Signal Ground  
CD (RLSD)  
7
Signal Ground  
CD (RLSD)  
7
8
8
9
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
DTR  
DTR 20  
21  
22  
23  
24  
25  
497-15180a  
Figure D-9. Serial Crossover Cable  
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Pin Assignments  
External Clock Interface  
The External Clock connector pinouts are in Table D-9.  
Table D-9. External Clock Connector  
Signal  
Pin Number  
Shield  
1
Clock (+) (RS422 only)  
Clock (–) (RS422 only)  
Clock In (RS423 only)  
Signal Common  
2
3
9
11  
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SNMP MIB Objects  
E
Overview  
This appendix describes the Management Information Base (MIB) objects that  
are supported by the DSU/CSU.  
The DSU/CSU supports the following MIBs:  
Protocol/Internet Protocol (TCP/IP) internets and provides general  
information about the DSU/CSU.  
network and DTE Drop/Insert (DSX-1) interfaces on the DSU/CSU.  
supports synchronous data ports (PORTs 1– 2) and management  
communication ports (AUX and COM ports) on the DSU/CSU.  
additional objects for control of generic interfaces in MIB II. It supports control  
of tests on the DTE Drop/Insert (DSX-1) and synchronous data interfaces  
that are not supported by other MIBs.  
Enterprise MIB – Defines objects unique to devices like the Model 3162.  
MIB II (RFC 1213)  
The objects defined by MIB II are organized into 10 different groups. The  
DSU/CSU implements only those groups where the semantics of the group are  
applicable to the implementation of a DSU/CSU. The MIB II object groups  
supported or not supported by the 3100 Series devices are as follows:  
System  
Group  
Supported.  
Interface  
Group  
Supported for the network interface, the DTE Drop/Insert  
(DSX-1) interface, the synchronous data ports, the COM  
port, and the AUX port. Interface statistics (counters) apply  
to any port (COM or AUX), whichever is defined as the  
SNMP management link.  
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SNMP MIB Objects  
Address  
Translation  
Group  
Not supported since this group is not supported in MIB II.  
Supported.  
IP Group  
ICMP Group Supported.  
TCP Group  
UDP Group  
EGP Group  
Supported.  
Supported.  
Not supported since the EGP protocol is not supported by  
the DSU/CSU.  
Transmissio Supported on the T1 interfaces using the DS1/E1 MIB.  
n Group  
Supported on the synchronous data ports using the  
RS-232-like MIB. Supported on the COM and AUX ports  
using the RS-232-like MIB.  
SNMP Group Supported.  
System Group, MIB II  
The System Group objects are fully supported by the DSU/CSU. The following  
sections provide clarification for objects contained in the System Group where it  
is not otherwise clear how the object definition in MIB II is related to the  
DSU/CSU. Objects not mentioned are supported as stated in the MIB.  
System Group – “sysDescr” Object (system 1)  
This object provides the full name and version identification for the system  
hardware and software. This object displays the following string:  
[Company Name] T1 DSU/CSU; model xxxx-xx-xxx; S/W Release: yy.yy.yy; H/W  
CCA: zzzz-zzz; Serial number: ssssssss.  
Where:  
xxxx-xx-xxx represents the full model number of the unit.  
yy.yy.yy represents the software revision number of the unit.  
zzzz-zzz represents the hardware revision number of the unit.  
ssssssss represents the serial number of the unit.  
System Group – “sysObjectID” Object (system 2)  
This object provides the authoritative identification of the network management  
subsystem contained in the unit.  
This object displays the following object identifier:  
3162  
[Company OID].1.14.2.2.7  
System group –”sysContact” Object (system 4)  
This object provides a textual identification of the contact person for this  
managed node.  
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SNMP MIB Objects  
System Group – “sysName” Object (system 5)  
This object provides an administratively-assigned name for this managed node.  
System Group – “sysLocation” Object (system 6)  
This object provides the physical location of this node.  
System Group – “sysServices” Object (system 7)  
This object provides a value which indicates the set of services that are  
potentially offered by the DSU/CSU. Only the following values are supported.  
H
H
physical(1) – Layer 1 functionality for all interfaces.  
datalink/subnetwork(2) – Layer 2 functionality (SLIP, PPP) for the COM and  
AUX ports.  
H
H
internet(4) – Layer 3 functionality (IP) for all management links.  
end-to-end(8) – Layer 4 functionality (UDP) for all management links.  
Therefore, set this object to 15 (the sum of 1 + 2 + 4 + 8).  
Interface Group, MIB II  
The Interfaces Group consists of an object indicating the number of interfaces  
supported by the unit and an interface table containing an entry for each  
interface. The DSU/CSU provides an entry in the interface table for the network  
interface, the DTE Drop/Insert (DSX-1) interface, each of the synchronous data  
ports (1 or 2), the COM port and the AUX port. The following sections provide  
clarification for objects contained in the Interface Group where it is not clear how  
the object definition in MIB II is related to the DSU/CSU.  
Interface Group – “ifNumber” Object (interfaces 1)  
This variable contains the maximum number of MIB II supported interfaces  
possible across the 31xx Series product line (9). This is different from the MIB  
description, which is defined as the number of interfaces on the particular device.  
This change allows the use of the same ifIndexes across all 31xx Series models.  
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SNMP MIB Objects  
Interface Group – “ifIndex” Object (ifEntry 1)  
This object provides the index into the ifTable and typically into tables in other  
MIBs also. The values of the ifIndex object do not vary between models even  
though not all indexes are supported for a particular model. When an  
unsupported index is accessed, “noSuchName” is returned.  
The following are the values of the ifIndexes for all DSU/CSU models:  
H
H
H
H
H
H
H
H
H
1–Net T1  
2–DTE T1  
3–COM port  
4–Modem port  
5–Auxiliary RS-232 port  
6–DCE port 1  
7–DCE port 2  
8–DCE port 3  
9–DCE port 4  
The supported ifIndexes for the 3162 DSU/CSU are:  
H
H
H
H
H
H
Net T1  
DTE T1  
COM port  
Auxiliary RS-232 port  
DCE port 1  
DCE port 2  
Interface Group – “ifDescr” Object (ifEntry 2)  
This object provides information about the interface. Each interface displays a  
text string as shown below:  
Network T1:  
DTE T1:  
COM:  
“Network T1. [Company Name] T1 DSU/CSU, Hardware  
Version: [CCA number]”.  
“DTE T1. [Company Name] T1 DSU/CSU, Hardware  
Version: [CCA number]”.  
“COM port. [Company Name] T1 DSU/CSU, Hardware  
Version: [CCA number]”.  
AUX:  
“AUX port. [Company Name] T1 DSU/CSU, Hardware  
Version: [CCA number]”.  
Data Ports:  
“Data Port n. [Company Name] T1 DSU/CSU, Hardware  
Version: [CCA number]” (where n is 1 or 2).  
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SNMP MIB Objects  
Interface Group – “ifType” Object (ifEntry 3)  
This object identifies the type of the interface based on the physical/link  
protocol(s) immediately below the network layer. Only the following values are  
supported by the DSU/CSU:  
H
H
ds1 – Used for the network and DTE Drop/Insert (DSX-1) interfaces.  
propPointToPointSerial(22) – Used for the synchronous data ports. Used for  
the COM port when the port is not configured as the SNMP management  
interface.  
H
H
ppp(23) – Used for the AUX or COM port when the port is configured for PPP.  
slip(28) – Used for the COM port when the port is configured for SLIP.  
Interface Group – “ifMtu” Object (ifEntry 4)  
This object identifies the largest datagram that can be sent or received on the  
interface. It is applicable only to the interface configured as the SNMP  
management link. This object is zero for all other interfaces.  
Interface Group – “ifSpeed” Object (ifEntry 5)  
This object provides the interface’s current bandwidth in bits per second. The  
value of this object for each interface is specified as follows:  
T1 Interfaces: 1,544,000 bps.  
COM and  
AUX:  
The currently configured data rate for the port.  
Data Ports:  
The currently configured data rate for the port when the port  
is allocated to one of the T1 interfaces. If the port is not  
allocated the data rate is defined as zero.  
Interface Group – “ifAdminStatus” Object (ifEntry 7)  
This object specifies the desired state (configuration) of the interface. This object  
is supported only for the COM port. It provides the ability to switch between using  
the port for SNMP or ASCII operations (dial-out, front panel emulation). The value  
of this object will not affect the state of any of the interfaces on the DSU/CSU  
other than the COM port. Only the following values are supported by the  
DSU/CSU:  
H
H
up(1) – The SNMP management link is active on the COM port.  
testing(3) – The SNMP management link is inactive on the COM port; the  
COM port can be used for proprietary ASCII functions.  
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SNMP MIB Objects  
Interface Group – “ifOperStatus” Object (ifEntry 8)  
This object specifies the current operational state of the interface. The value of  
this object for each interface is defined as follows:  
Network T1:  
DTE T1:  
The interface is up(1) when no alarm conditions exist.  
The interface is down(2) when an alarm condition is active.  
The interface is testing(3) when a test is active on the  
interface.  
The interface is up(1) when no alarm conditions exist and  
the interface is enabled.  
The interface is down(2) when an alarm condition is active  
and the interface is disabled.  
The interface is testing(3) when a test is active on the  
interface.  
COM Port:  
AUX Port:  
Data Ports:  
When configured as an SNMP management link, up and  
down are based on the current state of the link layer  
protocol. Otherwise, the interface is always up(1).  
The interface is never in the testing(3) state.  
When configured as an SNMP management link, up and  
down are based on the current state of the link layer  
protocol. Otherwise, the interface is always down(2).  
The interface is never in the testing(3) state.  
The interface is up(1) when the port is assigned to a T1  
interface or another data port as a backup, and both CTS  
and DSR are ON.  
The interface is down(2) when the port is unassigned, or  
either CTS or DSR is OFF.  
The interface is testing(3) when a test is active on the  
interface.  
Interface Group – “ifLastChange” Object (ifEntry 9)  
This object contains the value of “sysUpTime” at the time the interface entered its  
current operational state.  
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SNMP MIB Objects  
Interface Group – Input Counters (objects ifEntry 10 to ifEntry 15)  
These objects collect statistics on the data received by the COM port and the  
AUX port when these ports are configured as SNMP management links. For  
interfaces that are not configured as an SNMP management link, these statistics  
are not provided and an error status is returned if access is attempted. The  
objects used to collect input statistics are listed below:  
H
H
H
H
H
H
ifInOctets (ifEntry 10)  
ifInUcastPkts (ifEntry 11)  
ifInNUcastPkts (ifEntry 12)  
ifInDiscards (ifEntry 13)  
ifInErrors (ifEntry 14)  
ifInUnknownProtos (ifEntry 15)  
Interface Group – Output Counters (objects ifEntry 16 to ifEntry 21)  
These objects collect statistics on the data received by the COM port and the  
AUX port when these ports are configured as SNMP management links. For  
interfaces that are not configured as an SNMP management link, these statistics  
are not provided and an error status is returned if access is attempted. The  
objects used to collect output statistics are listed below:  
H
H
H
H
H
H
ifOutOctets (ifEntry 16)  
ifOutUcastPkts (ifEntry 17)  
ifOutNUcastPkts (ifEntry 18)  
ifOutDiscards (ifEntry 19)  
ifOutErrors (ifEntry 20)  
ifOutQLen (ifEntry 21)  
IP Group, MIB II  
The IP Group objects are supported by the DSU/CSU for all data paths which  
currently are configured to carry IP data to or from the DSU/CSU, including the  
COM, AUX, EDL, and FDL. All of the objects in the IP Group other than the IP  
Address Translation table are fully supported. The IP Address Translation table  
(ipNetToMediaTable) does not apply to the DSU/CSU and will be empty (i.e.,  
have zero entries). The following sections provide clarification for objects  
contained in the IP Group when it is not clear how the object definition in MIB II is  
related to the DSU/CSU.  
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SNMP MIB Objects  
IP Group – “ipForwarding” Object (ip 1)  
This object specifies whether the unit is acting as an IP gateway in respect to the  
forwarding of a datagram received by, but not addressed to, this unit. Only the  
following value is supported by the DSU/CSU.  
H
forwarding(1) – The unit is acting as a gateway.  
IP Group – “ipAddrTable” Object (ip 20)  
The address table is supported by the DSU/CSU.  
IP Group – “ipAdEntAddr” Object (ipAddrEntry 1)  
The ipAdEntAddr object is an IP address supported by the device and serves as  
the index to the address table. Since indexes for tables must be unique, only one  
ifIndex may be displayed for each IP address supported by the device. If you  
have configured the same IP address for multiple interfaces or for default IP  
addresses, you will not see all interfaces that support a particular IP address  
upon display of the ipAddrTable.  
IP Group – “ipAdEntIfIndex” Object (ipAddrEntry 2)  
For some address table entries, the ipAdEntIfIndex object may have a value  
greater than ifNumber. In these cases, the ipAdEntIfIndex refers to a proprietary  
interface which is not currently implemented by the interface group of MIB II.  
IP Group – “ipRouteTable” Object (ip 21)  
The routing table used by the DSU/CSU is supported as a read/write table.  
Entries in this table may be added, deleted, or changed. You should exercise  
great caution when adding or modifying routes in the ipRoutingTable. In general,  
it should not be necessary to add or modify routes in the DSU/CSU. In those  
cases where it is deemed necessary, the routes should only be added to the  
connected device (i.e., the device closest to the destination). Internal routing  
mechanisms will propagate the route to the other devices.  
An existing route may be effectively deleted by setting the ipRouteType object to  
“invalid” for the entry to be deleted. An existing route may be modified by  
changing fields in the desired entry (indexed by ipRouteDest) of the routing table.  
A new route may be added by specifying values for a table entry for which the  
index (“ipRouteDest”) does not already exist.  
To add a route using an SNMP set, you must specify a group of minimal objects.  
These variable bindings must be contained in a single Protocol Data Unit (PDU).  
The objects are described in more detail in the following sections. The minimal  
set consists of:  
H
H
ipRouteDest  
ipRouteIfIndex  
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SNMP MIB Objects  
The following objects are defaulted if not specified in the set PDU used to add a  
route.  
H
H
H
H
ipRouteMetric1 – Defaulted to 1 hop.  
ipRouteMetric2 – Defaulted to –1 for standalone devices.  
ipRouteType – Defaulted to indirect.  
ipRouteMask – Defaulted as specified in the MIB description.  
The following objects are unused in the DSU/CSU and setting them will have no  
effect on the operation of the IP implementation.  
H
H
ipRouteMetric3, ipRouteMetric4, ipRouteMetric5 – Defaulted to –1 as  
specified in the MIB.  
ipRouteNextHop – Defaulted to 0.0.0.0.  
The following read-only objects must not be specified in the set PDU used to add  
a route.  
H
H
H
ipRouteProto – Set to netmgmt(3) by software.  
ipRouteAge – Defaulted to 999.  
ipRouteInfo – Set to OBJECT IDENTIFIER {0, 0} since it is unused.  
IP Group – “ipRouteDest” Object (ipRouteEntry 1)  
The ipRouteDest object serves as the index to the routing table. Since indexes for  
tables must be unique, only one route per destination may appear in the table. To  
ensure that no duplicate destinations appear in the routing table, the ipRouteDest  
object of the ipRouteTable will be treated as described in RFC 1354 (IP  
Forwarding Table MIB):  
“The destination IP address of this route. An entry with a value of 0.0.0.0 is  
considered a default route. This object may not take a Multicast (Class D)  
address value. Any assignment (implicit or otherwise) of an instance of this object  
to a value x must be rejected if the bitwise logical–AND of x with the value of the  
corresponding instance of the ipForwardMask object is not equal to x.”  
IP Group – “ipRouteIfIndex” Object (ipRouteEntry 1)  
When the routing table is displayed, the ipRouteIfIndex object for some entries  
may have a value greater than ifNumber. In these cases, the ipRouteIfIndex  
refers to a proprietary interface which is not currently implemented by the  
interface group of MIB II. Route entries with an unrecognized ipRouteIfIndex  
value should not be deleted.  
When setting this object via SNMP, the ipRouteIfIndex value can only assume an  
appropriate value of ifIndex defined for the particular device type.  
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SNMP MIB Objects  
IP Group – “ipRouteMetric2” Object (ipRouteEntry 4)  
For standalone devices, ipRouteMetric2 is not used and contains –1.  
When adding a route to the routing table using SNMP, do not specify a value for  
ipRouteMetric2.  
IP Group – “ipRouteProto” Object (ipRouteEntry 9)  
This object is a read-only object and may have the following values in the  
DSU/CSU.  
H
H
other(1) – Temporary route added by IP.  
local(2) – Route added or modified as a result of user configuration via the  
front panel.  
H
H
netmgmt(3) – Route added or modified by means of an SNMP set.  
icmp(4) – Route added or modified by Internet Control Management Protocol  
(ICMP).  
H
rip(8) – Route added or modified by Routing Information Protocol (RIP) or  
similar proprietary protocol.  
IP Group – “ipRouteAge” Object (ipRouteEntry 10)  
This object is implemented as a read-only object in the DSU/CSU. In the  
DSU/CSU, it reflects the value of the route’s time-to-live (in seconds). When  
displays, a value of 999 represents a route that is retained permanently. For  
temporary routes, the ipRouteAge object decrements over time. All routes added  
via an SNMP set of the ipRouteTable are considered permanent routes. These  
routes do not age, but will remain unless deleted via SNMP.  
ICMP Group, MIB II  
The ICMP Group objects are fully supported by the DSU/CSU.  
TCP Group, MIB II  
The TCP Group objects are fully supported by the DSU/CSU, with the exception  
of the tcpConnState object, which will be read-only.  
UDP Group, MIB II  
The User Datagram Protocol (UDP) Group objects are fully supported by the  
DSU/CSU.  
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SNMP MIB Objects  
Transmission Group, MIB II  
Objects in the transmission group are supported on the network and DTE  
Drop/Insert (DSX-1) interfaces, the COM port, the AUX port, and the synchronous  
data ports. The objects in the transmission group are not defined within MIB II,  
but rather through other Internet standard MIB definitions. The following two  
transmission group objects are supported by the DSU/CSU.  
H
H
ds1 (transmission 18) – The transmission object supported on the T1  
interfaces.  
rs232 (transmission 33) – The transmission object supported on the  
synchronous data ports, COM port, and AUX port.  
The “ds1” transmission object is defined by the DS1/E1 MIB. The rs232  
transmission object is defined by the RS-232-like MIB.  
SNMP Group, MIB II  
The SNMP Group objects that apply to a management agent are fully supported  
by the DSU/CSU. The following objects apply only to an NMS and return a zero  
value if accessed.  
H
snmpInTooBigs (snmp 8)  
H
H
H
H
H
H
H
H
H
snmpInNoSuchNames (snmp 9)  
snmpInBadValues (snmp 10)  
snmpInReadOnlys (snmp 11)  
snmpInGenErrs (snmp 12)  
snmpInGetResponses (snmp 18)  
snmpInTraps (snmp19)  
snmpOutGetRequests (snmp 25)  
snmpOutGetNexts (snmp 26)  
snmpOutSetRequests (snmp 27)  
DS1/E1 MIB (RFC 1406)  
The “ds1” object defined by RFC 1406 is supported for both the network and DTE  
Drop/Insert (DSX-1) interfaces. The DS1 Near End Group and DS1 Fractional  
Group are supported for both interfaces. The DS1 Far End Group is not  
supported.  
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SNMP MIB Objects  
Near End Group, DS1/E1 MIB  
The DS1 Near End Group consists of the following four tables:  
H
H
H
H
DS1 Configuration  
DS1 Current  
DS1 Interval  
DS1 Total  
All four tables are fully supported for the network interface. Since statistics are not  
kept for the DTE Drop/Insert (DSX-1) interface, only the DS1 Configuration table  
is fully supported. The “statistic” objects for the DTE Drop/Insert (DSX-1) interface  
entry in the DS1 Current, DS1 Interval, and DS1 Total tables are always zero  
(null). The following sections provide clarification for objects contained in the Near  
End Group when it is not clear how the object definition in the DS1/E1 MIB is  
related to the DSU/CSU.  
Near End Group – “dsx1TimeElapsed” Object (dsx1ConfigEntry 3)  
Applies to the network interface only. An error status is returned if access is  
attempted for the DTE Drop/Insert (DSX-1) interface.  
Near End Group – “dsx1ValidIntervals” Object (dsx1ConfigEntry 4)  
Applies to the network interface only. An error status is returned if access is  
attempted for the DTE Drop/Insert (DSX-1) interface.  
Near End Group – “dsx1LineType” Object (dsx1ConfigEntry 5)  
This object corresponds to the NET Framing/DTE Framing configuration options  
for the T1 interfaces on the DSU/CSU. Only the following values are supported by  
the DSU/CSU.  
H
H
dsx1ESF(2) – Indicates ESF framing.  
dsx1D4(2) – Indicates D4 framing.  
Near End Group – “dsx1LineCoding” Object (dsx1ConfigEntry 6)  
This object corresponds to the NET Coding/DTE Coding configuration options for  
the T1 interfaces on the DSU/CSU. Only the following values are supported by  
the DSU/CSU.  
H
H
dsx1B8ZS(2) – Indicates B8ZS line coding.  
dsx1AMI(5) – Indicates AMI line coding.  
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SNMP MIB Objects  
Near End Group – “dsx1SendCode” Object (dsx1ConfigEntry 7)  
This object specifies the test patterns/codes being sent over the network  
interface. These tests are not supported on the DTE Drop/Insert (DSX-1)  
interface. Only the following values are supported by the DSU/CSU.  
H
dsx1SendNoCode(1) – Specifies that the interface is sending normal or  
looped data. Setting the interface to this value stops an active “send pattern”  
test on the interface. This is the only value supported by the DTE Drop/Insert  
(DSX-1) interface.  
H
H
H
dsx1SendLineCode(2) – Specifies that the network interface is sending a  
Remote Loopback (Rlpbk) LLBUP code. The code is sent for 10 seconds.  
dsx1SendResetCode(4) – Specifies that the network interface is sending  
Remote Loopback (Rlpbk) LLBDN code. The code is sent for 10 seconds.  
dsx1SendQRS(5) – Specifies that the network interface is sending a QRSS  
test pattern. The pattern is sent until the test is halted (i.e., setting to  
dsx1SendNoCode).  
H
dsx1SendOtherTestPattern(8) – Specifies that the network interface is  
sending a 1-in-8 test pattern. The pattern is sent until the test is halted (i.e.,  
setting to dsx1SendNoCode).  
Near End Group – “dsx1CircuitIdentifier” Object (dsx1ConfigEntry 8)  
This object is only supported on the Net T1 Interface.  
Near End Group – “dsx1LoopbackConfig” Object (dsx1ConfigEntry 9)  
This object specifies the loopback state of the T1 interfaces. Only the following  
values are supported by the DSU/CSU.  
H
H
dsx1NoLoop(1) – The T1 interface is not in a loopback state.  
dsx1PayloadLoop(2) – Specifies that a Payload Loopback (PLB) is active for  
the network interface or a Repeater Loopback (RLB) is active for the DTE  
Drop/Insert (DSX-1) interface.  
H
dsx1LineLoop(3) – Specifies that a Line Loopback (LLB) is active for the  
network interface or a DTE Loopback (DLB) is active for the DTE Drop/Insert  
(DSX-1) interface.  
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SNMP MIB Objects  
Near End Group – “dsx1LineStatus” Object (dsx1ConfigEntry 10)  
This object specifies the line (alarm) status of the T1 interfaces. Only the  
following values are supported by the DSU/CSU. More than one value may be  
active at a time.  
H
H
H
H
dsx1NoAlarm(1) – No alarm present.  
dsx1RcvFarEndLOF(2) – A yellow alarm signal is being received.  
dsx1RcvAIS(8) – An Alarm Indication Signal (AIS) is being received.  
dsx1LossOfFrame(32) – An Out Of Frame condition has persisted for more  
that 2.5 seconds (i.e., Red Alarm).  
H
H
H
dsx1LossOfSignal(64) – A Loss of Signal condition has persisted for more  
that 2.5 seconds (i.e., Red Alarm).  
dsx1LoopbackState(128) – The near end of the T1 interface is in a loopback  
state.  
dsx1Other Failure(4096) – An Excessive Error Rate (EER) has been  
detected on the network interface.  
Near End Group – “dsx1SignalMode” Object (dsx1ConfigEntry 11)  
This object specifies whether Robbed Bit Signaling (RBS) is being used. This  
object differs from the MIB definition in that it is “read-only” (not read/write) for  
DSU/CSUs. Only the following values are supported by the DSU/CSU.  
H
H
none(1) – No signaling is being used on this interface.  
robbedBit(2) – Robbed Bit Signaling is being used on at least one DS0 on  
this T1 interface.  
Near End Group – “dsx1TransmitClockSource” Object (dsx1ConfigEntry 12)  
This object specifies the timing source for the transmit clock for this T1 interface.  
This object differs from the MIB definition in that it is “read-only” (not read/write)  
for DSU/CSUs. Only the following values are supported by the DSU/CSU.  
H
H
H
loopTiming(1) – The recovered receive clock is being used as the transmit  
clock.  
localTiming(2) – The DSU/CSU’s internal clock is used being as the transmit  
clock.  
ThroughTiming(3) – The recovered receive clock from another interface (e.g.,  
T1, Port, or External) is being used as the transmit clock.  
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SNMP MIB Objects  
Near End Group – “dsx1Fdl” Object (dsx1ConfigEntry 13)  
This object specifies how Facility Data Link is being used. Only the following  
values are supported by the DSU/CSU. More than one value may be active at a  
time.  
H
H
dsx1other(1) – SNMP data is being sent over FDL.  
dsx1Ansi-T1-403(2) – ANSI PRMs are supported on the network interface as  
specified by ANSI T1.403.  
H
H
dsx1Att-54016(4) – FDL supports the requirements specified by AT&T  
publication TR54016.  
dsx1Fdl-none(8) – Indicates that the device does not use FDL. This is the  
only value that applies to the DTE Drop/Insert (DSX-1) interface.  
Near End Group – The DS1 Current Table Objects (dsx1CurrentEntry)  
The following DS1 current table objects are provided for the network interface  
only. Objects in the table that are not listed are not supported and will return an  
error status if access is attempted.  
H
H
H
H
H
H
dsx1CurrentIndex – The index that identifies the T1 interface.  
dsx1CurrentESs – Errored Seconds for the current interval.  
dsx1Current SESs – Severely Errored Seconds for the current interval.  
dsx1CurrentUASs – Unavailable Seconds for the current interval.  
dsx1CurrentCSSs – Controlled Slip Seconds for the current interval.  
dsx1CurrentBESs – Bursty Errored Seconds for the current interval.  
Near End Group – The DS1 Interval Table Objects (dsx1IntervalEntry)  
The following DS1 interval table objects are provided for the network interface  
only. Objects in the table that are not listed are not supported and will return an  
error status if access is attempted.  
H
H
H
H
H
H
H
dsx1IntervalIndex – The index that identifies the T1 interface.  
dsx1IntervalNumber – The interval number (1 to 96).  
dsx1IntervalESs – Errored Seconds for the interval.  
dsx1Interval SESs – Severely Errored Seconds for the interval.  
dsx1IntervalUASs – Unavailable Seconds for the interval.  
dsx1IntervalCSSs – Controlled Slip Seconds for the interval.  
dsx1Interval BESs – Bursty Errored Seconds for the interval.  
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SNMP MIB Objects  
Near End Group – The DS1 Total Table Objects (dsx1TotalEntry)  
The following DS1 total table objects are provided for the network interface only.  
Objects in the table that are not listed are not supported and will return an error  
status if access is attempted.  
H
H
H
H
H
H
dsx1TotalIndex – The index that identifies the T1 interface.  
dsx1TotalESs – The 24-hour total Errored Seconds.  
dsx1Total SESs – The 24-hour total Severely Errored Seconds.  
dsx1TotalUASs – The 24-hour total Unavailable Seconds.  
dsx1TotalCSSs – The 24-hour total Controlled Slip Seconds.  
dsx1TotalBESs – The 24-hour total Bursty Errored Seconds.  
Far End Group, DS1/E1 MIB  
The DS1 Far End Group consists of the following three tables:  
H
H
H
DS1 Far End Current  
DS1 Far End Interval  
DS1 Far End Total  
These tables are not supported for either the network or DTE Drop/Insert (DSX-1)  
interface.  
DS1 Fractional Group, DS1/E1 MIB  
The DS1 Fractional Group consists of the DS1 fractional table. This table  
(dsx1FracTable) is fully supported by the DSU/CSU and allows channel (time  
slots) to be mapped between the T1 interfaces and data ports. If an invalid  
channel map (e.g., two interfaces mapped to a single time slot, one interface  
mapped to two T1s, etc.) is received, an error will be returned to the SNMP  
manager. The DSU/CSU will validate all channel configurations before applying  
them.  
Operational Note: The fractional T1 group only allows specification of an entire  
interface to a particular time slot on another interface (i.e., a time slot on one  
interface cannot be mapped to a time slot on another interface). This prevents  
complete mapping of time slots on the DTE Drop/Insert (DSX-1) interface to time  
slots on the network interface. For mapping time slots between the network and  
DTE T1 interfaces, the following convention is used: Time slots on the T1  
interface that are mapped to another T1 interface (i.e., not a data port) are  
connected in ascending order. For example, if the fractional table for the network  
interface maps time slots 1, 3 and 5 to the DTE T1 interface and the DTE T1  
interface maps time slots 10, 11 and 15 to the network the following time slots will  
be connected: N1 to D10, N3 to D11 and N5 to D15.  
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SNMP MIB Objects  
RS-232-like MIB (RFC 1317)  
The “rs232” object defined by RFC 1317 is supported for all of the synchronous  
data ports, the COM port, and the AUX port. The RS-232-like MIB consists of one  
object and five tables, as follows:  
H
H
H
H
H
H
Number of RS-232-like ports  
The General Port Table  
The Asynchronous Port Table  
The Synchronous Port Table  
The Input Signal Table  
The Output Signal Table  
The Asynchronous Port table is not supported by the DSU/CSU for the  
synchronous data ports. The Input Signal and Output Signal tables are not  
supported for the AUX and COM ports. The following sections provide  
clarification for objects contained in the RS-232-like MIB when it is not clear how  
the object definition in MIB is related to the DSU/CSU.  
Number of Ports – “rs232NumberObject (rs232 1)  
This object contains the number of ports in the RS-232-like general port table.  
This number is 4 for the 3162.  
General Port Table, RS-232-like MIB  
The general port table contains general configuration objects for the RS-232-like  
interfaces.  
General Port Table – “rs232PortIndex” Object (rs232PortEntry 1)  
This object contains a unique value for each port and is used as an index into the  
general port table (rs232PortTable). The values of the rs232PortIndex object vary  
between models and are listed below.  
The values of rs232PortIndex for the 3162 DSU/CSU are:  
H
H
H
H
1 – COM port  
3 – Auxiliary RS-232 port  
4 – DCE port 1  
5 – DCE port 2  
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SNMP MIB Objects  
General Port Table – “rs232PortType” Object (rs232PortEntry 2)  
This object is used to identify the port’s hardware type. Only the following values  
are supported by the DSU/CSU.  
H
H
rs232(2) – Used to identify the AUX and COM ports.  
rs422(3) – Used to identify synchronous data ports that are configured as  
EIA-530A or RS-449.  
H
V35(5) – Used to identify synchronous data ports that are configured as V.35.  
General Port Table – “rs232PortInSigNumberObject (rs232PortEntry 3)  
This object contains the number of input signals contained in the input signal  
table. This is the number of signals that can be detected. This number is 2 for the  
synchronous data ports and 0 for the AUX and COM ports.  
General Port Table – “rs232PortOutSigNumberObject (rs232PortEntry 4)  
This object contains the number of output signals contained in the output signal  
table. This is the number of signals that can be asserted. This number is 2 for the  
synchronous data ports and 0 for the AUX and COM ports.  
General Port Table – “rs232PortInSpeed” Object (rs232PortEntry 5)  
This object contains the port’s input speed in bits per second. For the DSU/CSU,  
the rs232PortInSpeed object has the same value as the rs232PortOutSpeed  
object. The input speed of a synchronous data port is determined by the channel  
configuration and cannot be changed through this object. Thus, for the  
synchronous data ports, this object is read-only. The input speed of the AUX or  
COM port is the currently configured speed. Setting of this value for the AUX or  
COM port causes the configured port speed to be changed.  
General Port Table – “rs232PortOutSpeed” Object (rs232PortEntry 6)  
This object contains the port’s output speed in bits per second. For the  
DSU/CSU, the rs232PortInSpeed object has the same value as the  
rs232PortOutSpeed object. The input speed of a synchronous data port is  
determined by the channel configuration and cannot be changed through this  
object. Thus, for the synchronous data ports, this object is read-only. The input  
speed of the AUX or COM port is the currently configured speed. Setting of this  
value for the AUX or COM port causes the configured port speed to be changed.  
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SNMP MIB Objects  
Asynchronous Port Table, RS-232-like MIB  
The asynchronous port table contains an entry for the AUX or COM port when  
the port is configured for asynchronous operation. For the DSU/CSU, the entries  
in the table that are counters (rs232AsyncPortEntry 68) are used to collect  
statistics and are not supported.  
Asynchronous Port Table, “rs232AsyncPortBits” (rs232AsyncPortEntry 2)  
This object specifies the number of bits in a character. Only the following values  
are supported by the DSU/CSU.  
H
H
7 – 7-bit characters. Supported on the COM port only.  
8 – 8-bit characters.  
Asynchronous Port Table, “rs232AsyncPortStopBits”  
(rs232AsyncPortEntry 3)  
This object specifies the number of stop bits supported. Only the following values  
are supported by the DSU/CSU.  
H
H
H
one(1) – One stop bit.  
two(2) – Two stop bits. Supported on the COM port only.  
one-and-half(3) – One and a half stop bits. Supported on the COM port only.  
Asynchronous Port Table, “rs232AsyncPortParity” (rs232AsyncPortEntry 4)  
This object specifies the parity used by the port. Only the following values are  
supported by the DSU/CSU.  
H
H
H
none(1) – No parity bit.  
odd(2) – Odd parity. Supported on the COM port only.  
even(3) – Even parity. Supported on the COM port only.  
Asynchronous Port Table, “rs232AsyncPortAutoBaud”  
(rs232AsyncPortEntry 5)  
This object specifies the ability to automatically sense the input speed of the port.  
Only the following value is supported by the DSU/CSU.  
H
disabled(2) – Autobaud is not supported.  
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SNMP MIB Objects  
Synchronous Port Table, RS-232-like MIB  
The synchronous port table contains an entry for each of the synchronous data  
ports and the COM port when the port is configured for synchronous operation.  
For the DSU/CSU, the entries in the table that are counters (rs232SyncPortEntry  
3–7) are used to collect statistics and are not supported.  
Synchronous Port Table – “rs232SyncPortClockSource”  
(rs232SyncPortEntry 2)  
This object specifies the clock source for the port. Only the following values are  
supported by the DSU/CSU.  
H
H
internal(1) – The port uses an internal clock.  
external(2) – The port uses an external clock.  
Input Signal Table, RS-232-like MIB  
This table contains entries for the input signals that can be detected by the unit  
for each of the synchronous data ports.  
Input Signal Table – “rs232InSigName” (rs232InSigEntry 2)  
This object contains the identification of a hardware input signal. Only the  
following values are supported by the DSU/CSU.  
H
H
rts(1) – Request-To-Send.  
dtr(4) – Data Terminal Ready.  
Input Signal Table – “rs232InSigState” (rs232InSigEntry 3)  
This object contains the current signal state. Only the following values are  
supported by the DSU/CSU.  
H
H
on(2) – The signal is asserted.  
off(3) – The signal is not asserted.  
Input Signal Table – “rs232InSigChanges” (rs232InSigEntry 4)  
This object is not supported by the DSU/CSU.  
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SNMP MIB Objects  
Output Signal Table, RS-232-like MIB  
This object contains entries for the output signals that can be asserted by the unit  
for each of the synchronous data ports.  
Output Signal Table – “rs232OutSigName” (rs232OutSigEntry 2)  
This object contains the identification of a hardware output signal. Only the  
following values are supported by the DSU/CSU.  
H
H
cts(1) – Clear-To-Send.  
dsr(4) – Data Set Ready.  
Output Signal Table – “rs232OutSigState” (rs232OutSigEntry 3)  
This object contains the current signal state. Only the following values are  
supported by the DSU/CSU.  
H
H
on(2) – The signal is asserted.  
off(3) – The signal is not asserted.  
Output Signal Table – “rs232OutSigChanges” (rs232OutSigEntry 4)  
This object is not supported by the DSU/CSU.  
Generic-Interface MIB Extensions (RFC 1229)  
This generic-interface MIB is an experimental MIB that provides extensions to the  
generic interface group defined in MIB II. This MIB describes three tables:  
H
H
H
Generic Interface Extension Table  
Generic Interface Test Table  
Generic Receive Address Table  
Only the generic interface test table is supported by the DSU/CSU. This table is  
supported for the network interface only.  
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SNMP MIB Objects  
Generic Interface Test Table, Generic Interface MIB  
The test table provides access to additional tests (loopbacks and pattern tests)  
that are not in the interface group of MIB II.  
Generic Interface Test Table – “ifExtnsTestType” Object (ifExtnsTestEntry 4)  
This object is a control variable used to start and stop operator-initiated tests on  
the interface. It provides the capability to:  
H
H
H
Start/stop the Monitor QRSS test pattern on the network interface.  
Start/stop the Send QRSS/511 test pattern on a synchronous data port.  
Start sending a V.54/FT1 UP/DOWN code to the remote unit for a  
synchronous data port.  
H
H
Start/stop the Monitor QRSS/511 test pattern on a synchronous data port.  
Start/stop the DCLB/DTLB loopback test on a synchronous data port.  
The following object identifiers are used to control the tests on the interface.  
H
H
noTest – Stops the test in progress on the interface.  
testFullDuplexLoopBack – Initiates a DCLB on the interface. Only supported  
for the data ports.  
H
H
H
H
H
H
H
H
H
testLoopDTLB – Initiates a DTLB on the interface. Only supported for the  
data ports.  
testMonQRSS – Initiates a Monitor QRSS test on the interface. Supported for  
the data ports and the network interface.  
testMon511 – Initiates a Monitor 511 test on the interface. Only supported for  
the data ports.  
testSendQRSS – Initiates a Send QRSS test on the interface. Only supported  
for the data ports.  
testSend511 – Initiates a send 511 test on the interface. Only supported for  
the data ports.  
testSendV54Up – Sends a V54 up code to the remote unit. Only supported  
for the data ports.  
testSendV54Down – Sends a V54 down code to the remote unit. Only  
supported for the data ports.  
testSendFT1Up – ends a FT1 up code to the remote unit. Only supported for  
the data ports.  
testSendFT1Down – Sends a FT1 down code to the remote unit. Only  
supported for the data ports.  
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SNMP MIB Objects  
Where these object identifiers are defined as follows:  
H
H
H
H
H
H
H
H
H
testLoopDTLB – OBJECT IDENTIFIER ::= [wellKnownTests 2]  
testMonQRSS – OBJECT IDENTIFIER ::= [wellKnownTests 3]  
testMon511 – OBJECT IDENTIFIER ::= [wellKnownTests 4]  
testSendQRSS – OBJECT IDENTIFIER ::= [wellKnownTests 5]  
testSend511 – OBJECT IDENTIFIER ::= [wellKnownTests 6]  
testSendV54Up – OBJECT IDENTIFIER ::= [wellKnownTests 7]  
testSendV54Down – OBJECT IDENTIFIER ::= [wellKnownTests 8]  
testSendFT1Up – OBJECT IDENTIFIER ::= [wellKnownTests 9]  
testSendFT1Down – OBJECT IDENTIFIER ::= [wellKnownTests 10]  
Generic Interface Test Table – “ifExtnsTestResult” Object  
(ifExtnsTestEntry 5)  
This object contains the result of the most recently requested test. Only the  
following values are supported by the DSU/CSU.  
H
H
H
H
none(1) – No test currently active.  
inProgress(3) – A test is currently in progress.  
notSupported(4) – The requested test is not supported.  
unAbleToRun(5) – The requested test cannot run due to the state of the unit.  
Generic Interface Test Table – “ifExtnsTestCode” Object  
(ifExtnsTestEntry 6)  
This object contains a code that contains more specific information on the test  
result. This object is defined as an object identifier. Only the following values are  
supported by the DSU/CSU.  
H
H
H
H
none – No further information is available. Used for the send pattern/code  
and loopback tests.  
inSyncNoBitErrors – A monitor pattern (QRSS or 511) test has synchronized  
on the pattern and has not detected any bit errors.  
inSyncWithBitErrors – A monitor pattern (QRSS or 511) test has  
synchronized on the pattern and has detected bit errors.  
notInSync – A monitor pattern (QRSS or 511) test has not synchronized on  
the requested pattern.  
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SNMP MIB Objects  
Where these object identifiers are defined as follows:  
H
H
H
H
H
wellKnownCodes – OBJECT IDENTIFIER ::= [ifExtensions 5]  
none – OBJECT IDENTIFIER ::= [wellKnownCodes 1]  
inSyncNoBitErrors – OBJECT IDENTIFIER ::= [wellKnownCodes 2]  
inSyncWithBitErrors – OBJECT IDENTIFIER ::= [wellKnownCodes 3]  
notInSync – OBJECT IDENTIFIER ::= [wellKnownCodes 4]  
Enterprise MIB  
The variable devConfigAreaCopy under the devConfigAreaCopy group in the  
common area of the Enterprise MIB will be fully supported. This variable allows  
the entire contents of one configuration area to be copied into another  
configuration area.  
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IP Network Addressing Scenario  
F
Overview  
This appendix describes a means of configuring 31xx Series devices in an  
Internet Protocol (IP) network to provide SNMP or Telnet connectivity. Since there  
are many possible network addressing schemes, this appendix describes an  
addressing scheme for a typical customer network management system (NMS)  
scenario. This appendix is not intended to be an IP addressing or routing tutorial,  
and a basic understanding of IP and 31xx Series devices is assumed.  
IP Network Addressing  
Series devices daisy chained together, with remotes connected via the FDL. In  
this scenario, all 31xx Series devices are on the same subnet (135.18.1.0). The  
subnet mask for each device is FF.FF.FF.00. A static route is set in the NMS host  
to subnet 135.18.1.0.  
The following notes apply to this scenario:  
H
H
Connections to remote devices may be via EDL or FDL; however, the FDL is  
only available on full T1 links (not fractional T1s). Check with the service  
provider to be sure that the FDL is end-to-end (i.e., not terminated at an  
intermediate point within the network).  
Interconnected 31xx Series devices automatically pass routing information  
between them; however, a static route to the subnet(s) must be set in the  
routing table of the NMS host. This route uses the 31xx Series device  
connected to the LAN (via the LAN Adapter), or the NMS (via a direct PPP or  
SLIP connection) as a gateway to the subnet(s). In all instances, the  
addressing scheme presented works for both the LAN and the direct  
connections.  
H
H
Although routing table entries are maintained automatically by 31xx Series  
devices, without the need for user configuration, only a maximum of 100  
routes is supported for a given device.  
The choice of a host address within a given subnet is completely arbitrary.  
Choose any legal host address for a given subnet, without regard to the local  
or remote devices.  
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IP Network Addressing Scenario  
H
Although the default route (to the NMS) is configurable for all devices, only  
devices that have a direct external connection to an NMS (via the COM or  
AUX ports) need a default route set. In the following examples, the default  
port (COM or AUX) is set in the device connected to the LAN Adapter.  
ETHERNET  
135.18.40.1  
135.18.1.2  
135.18.1.3  
NETWORK  
LAN  
ADAPTER  
SUBNET 135.18.40.0  
AUX/COM IP ADDRESS: 135.18.40.2  
135.18.1.4  
135.18.1.5  
SUBNET 135.18.1.0  
135.18.1.1  
135.18.1.7  
135.18.1.6  
496-14645-03  
Figure F-1. Daisy-Chained Standalone at the Central Site  
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Equipment List  
G
Equipment  
Feature Number  
3162-A1-210  
3100-F1-500  
3100-F1-510  
3100-F1-550  
Model 3162 DSU/CSU  
T1 Line Interface Cable, RJ48C-to-RJ48C  
T1 Line Interface Cable, RJ48C-to-DA15P (Canada)  
COM Port-to-PC Cable, 8-pin modular to DB9S  
COM Port-to-Terminal/Printer Cable, 8-pin modular to DB25P 3100-F1-540  
115 Vac Power Module  
EIA-530-A-to-RS449/422 Adapter  
EIA-530-A-to-V.35 Adapter  
3100-F1-580  
3100-F1-570  
3100-F1-571  
3100-F1-400  
EIA-530-A-to-X.21 Adapter  
Wall-Mount/Rack-Mount Adapter  
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Equipment List  
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Glossary  
1in8 Test  
A test pattern consisting of a one (1) followed by seven zeros (on the network only).  
A rack-mounted device containing 17 slots in which to place circuit cards.  
A product family and a registered trademark of Paradyne.  
3000 Series Carrier  
ACCULINK  
ACO  
Alarm Cut-off command. A command for carrier-mounted CSUs that forces a deactivation  
of the alarm relay on the 3000 Series Carrier.  
Activ  
Active configuration area. The configuration option set that is currently active for the  
device. Before a configuration option set becomes active, you must save the set to the  
Active configuration area.  
adapter  
Hardware that provides some transitional function between two or more devices.  
A symbol (usually numeric) that identifies the interface attached to a network.  
address  
agent (SNMP)  
A software program housed within a device to provide SNMP functionality. Each agent  
stores management information and responds to the manager’s request for this  
information.  
AIS  
Alarm Indication Signal. An all ones signal transmitted to maintain transmission continuity  
and to indicate to the receiving terminal that a transmission fault exists at either the  
transmitting terminal or upstream of the transmitting signal. Sometimes referred to as Blue  
Alarm.  
AMI  
Alternate Mark Inversion. A line coding technique used to accommodate the ones density  
requirements of E1 or T1 lines.  
ANSI  
American National Standards Institute. A member of ISO, ANSI accredits and implements  
standards.  
application  
ASCII  
The use to which a device is put.  
American Standard Code for Information Interchange. The standard for data transmission  
over telephone lines. A 7-bit code establishes compatibility between data services. The  
ASCII code consists of 32 control characters (nondisplayed) and 96 displayed characters.  
ASCII  
terminal/printer  
A device that can be attached, either locally or remotely, to a DSU/CSU to display or print  
alarm messages.  
asynchronous data  
Data that is formatted so it is synchronized by a transmission start bit at the beginning of a  
character and one or more stop bits at the end.  
authenticationFailure  
trap  
An SNMP trap that indicates that the device has received an SNMP protocol message that  
has not been properly authenticated.  
AUX port  
The auxiliary communications port on the CSU.  
Auxiliary Backplane  
An 8-slot backplane that fits over one half of the open section of the 3000 Series Carrier.  
This is a passive assembly that provides all interface connectors.  
AWG  
B8ZS  
American Wire Gauge. An indication of wire size. The heavier the gauge, the lower the  
AWG number, and the lower the impedance.  
Bipolar 8 Zero Substitution. Encoding scheme for transmitting clear channel signals over a  
T1 line.  
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Glossary  
bandwidth  
BES  
The range of frequencies that can be passed by a transmission medium, or the range of  
electrical frequencies a device is capable of handling.  
Bursty Error Seconds. A second in which more than one but less than 320 CRC6 error  
events have occurred.  
bipolar signal  
bit  
A signal in which successive ones (marks, pulses) are of alternating positive and negative  
polarity, and in which a zero (space, no pulse) is of zero amplitude.  
Binary digit. The smallest unit of information, representing a choice between a one or a  
zero (sometimes called mark or space).  
bps  
Bits per second. Indicates the speed at which bits are transmitted across a data  
connection.  
BPV  
Bipolar Violation. In a bipolar signal, a one (mark, pulse) which has the same polarity as its  
predecessor.  
byte  
A sequence of successive bits (usually eight) handled as a unit in data transmission.  
CCITT  
Consultative Committee on International Telegraphy and Telephony. An advisory  
committee established by the United Nations to recommend communications standards  
and policies. It was renamed ITU in March 1993.  
CD  
Carrier Detect. The received line signal detector. V.24 circuit 109.  
channel  
A bidirectional DS0, voice, or data path, for electrical transmission between two or more  
points. Also called a circuit, line, link, path, or facility.  
CHAP  
Challenge Handshake Authentication Protocol. A security technique that allows a user  
password to be encrypted for transmission.  
character  
A letter, figure, number, punctuation, or other symbol.  
CID branch  
client  
Customer Identification branch or the CSU menu tree.  
A device that receives a specific service, such as database management, from a server.  
Clear Performance Registers branch of the CSU menu tree.  
Configuration branch of the CSU menu tree.  
ClrReg branch  
Cnfig branch  
coding  
A technique used to accommodate the ones density requirements of E1 lines.  
community name  
An identification used by an SNMP manager to grant an SNMP server access rights to a  
MIB.  
COMSPHERE  
configuration  
A proprietary product family name and a registered trademark of Paradyne.  
The arrangement of a system or network as defined by the characteristics of its functional  
units.  
configuration option  
CPU fail  
Device software that sets specific operating parameters for the device. Sometimes  
referred to as straps.  
Central Processing Unit failure. A Self-Test Health message indicating a failure in the  
device’s central processing unit.  
CRC  
Cyclic Redundancy Check. A mathematical method of confirming the integrity of received  
digital data.  
CRC6  
CSA  
CRC using six check bits.  
Canadian Standards Association.  
March 1999  
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Glossary  
CSU  
Channel Service Unit. A device that connects service user equipment such as a DSU to  
the local digital telephone loop, protects the line from damage, and regenerates the signal.  
Ctrl branch  
CTS  
Control branch of the CSU menu tree.  
Clear To Send. A signal indicating that the device is ready for the DTE to transmit data.  
Usually occurs in response to Request To Send (RTS).  
Cust1  
Customer 1 configuration area. The first of two sets of customer-defined configuration  
options.  
Cust2  
Customer 2 configuration area. The first of two sets of customer-defined configuration  
options.  
D4  
The transmission standard that specifies 12 frames as a superframe that is used for frame  
synchronization and to locate signaling bits.  
daisy chaining  
Connecting the COM port of one device to the AUX port of another device to provide  
SNMP connectivity.  
database  
An organized compilation of computerized data.  
A 15-position connector used on cables or devices.  
DB15 connector  
data carrier  
A continuous frequency signal that can be modulated by another signal that contains  
information to be transmitted.  
DCE  
Data Communications Equipment. The equipment that provides the functions required to  
establish, maintain, and end a connection. It also provides the signal conversion required  
for communication between the DTE and the network.  
default  
A factory-preset value that is assumed to be correct unless changed by the user.  
DevFail  
Device Failure. A message that indicates that an internal failure has been detected by the  
operating firmware. An 8-digit code appears for use by service personnel.  
DevHS branch  
device  
Device Health and Status branch of the CSU menu tree.  
A mechanical, electrical, or electronic unit with a special purpose.  
A signal composed of only two discrete values, representing the binary digits 0 and 1.  
A thin, flexible magnetic disk enclosed in a protective jacket.  
Download branch of the CSU menu tree.  
digital signal  
diskette  
DL branch  
DLB  
DTE Loopback. Loopback mode that loops the information received on the DTE T1  
network interface back to the network as close to the network interface as possible.  
download  
A process that transfers device firmware and software from a locally-attached PC to a  
device, or allows the duplication of firmware and software from a local device to a remote  
device.  
drop/insert  
An interconnection point for terminals, multiplexers, and transmission facilities. Individual  
channels may be inserted into the aggregate stream or dropped out to accommodate  
specific applications.  
DS0  
DS1  
Digital signal level 0 (zero). A 64 kbps digital telecommunications signal or channel.  
Digital signal level 1 (one). A digital signal transmitted at the rate of 1.544 Mbps in North  
America.  
DS1/E1 MIB  
Defines objects for managing E1 interfaces and supports the network and G.703 DTE  
interfaces on the E1 NTU.  
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Glossary  
DSR  
DSU  
Data Set Ready. A signal from the modem to the DTE that indicates the modem is turned  
ON and connected to the DTE.  
Data Service Unit. Data communications equipment that provides timing, signal  
regeneration, and an interface to data terminal equipment. A subrate DSU/CSU is normally  
referred to as a DSU.  
DSX-1  
DTE  
Digital Signal Cross Connect level 1. An interconnection point for terminals, multiplexers  
and transmission facilities.  
Data Terminal Equipment. The equipment, such as a computer or terminal, that provides  
data in the form of digital signals for transmission.  
DTE interface  
DTMF  
The DTE interface on the rear panel of the CSU.  
Dual-Tone Multi-Frequency. A signaling method using two voice frequencies to designate  
the tones used for touch-tone dialing, as distinguished from pulse dialing.  
DTR  
Data Terminal Ready. A signal from the DTE to the modem, sent via Pin 20 of the  
EIA-232 interface (V.24 circuit 108/1, /2), that indicates the DTE is turned ON and  
connected to the modem.  
E1  
A wideband digital interface operating at 2.048 Mbps, defined by ITU recommendations  
G.703 and G.704. It is used primarily outside North America.  
EER  
Excessive Error Rate. An error rate that is greater than the threshold that has been  
configured in the device.  
Enterprise MIB  
MIB objects unique to a specific company’s devices.  
A trap unique to a specific company’s devices.  
enterprise-specific  
trap  
EON  
error  
End of Number.  
A discrepancy between a measured or computed value or condition and the true or  
specified value or condition.  
ES  
Errored Seconds. A second with one or more ESF error events (one or more CRC6 error  
events or OOFs).  
ESD  
ESF  
Fact1  
Fact2  
ElectroStatic Discharge. An undesirable discharge of static electricity that can damage  
equipment and degrade electrical circuitry.  
Extended SuperFrame. The T1 transmission standard that specifies 24 frames as an  
extended superframe to be used for frame synchronization and to locate signaling bits.  
Factory 1 configuration area. The first of two configuration option sets that are preset at  
the factory (read-only options).  
Factory 2 configuration area. The first of two configuration option sets that are preset at  
the factory (read-only options).  
failure  
fault  
An uncorrected hardware error.  
An accidental condition that causes a functional unit to fail to perform its required function.  
FCC  
Federal Communications Commission. The Board of Commissioners that regulates all  
electrical communications that originate in the United States.  
FDL  
Facility Data Link. The selected framing bits in the ESF format used in a wide-area link that  
are used for control, monitoring, and testing.  
Fractional T1  
Individual DS0 channels that may be sold separately or in groups to provide bandwidth  
that is some fraction of the total T1 capability.  
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Glossary  
frame  
One identifiable group of bits that includes a sequence of bits for control, framing, etc.  
frame relay  
A high-speed connection-oriented packet switching WAN protocol using variable-length  
frames.  
framing  
A technique that separates bits into identifiable groups.  
Generic-Interface  
Extension MIB  
An extension to MIB II that defines additional objects for control of generic interfaces in  
MIB II.  
Get (SNMP)  
ground  
A command providing read-only access to SNMP MIB objects.  
A physical connection to earth or other reference point.  
HDLC  
High-Level Data Link Control. A communications protocol defined by the International  
Standards Organization (ISO).  
host  
A computer attached to a network that shares its information and devices with the rest of  
the network.  
Hz  
Hertz. A unit of frequency that equals one cycle per second.  
ICMP  
Internet Control Management Protocol. Internet protocol that allows for the generation of  
error messages, tests packets, and information messages related to IP.  
ID branch  
interface  
Internet  
internetwork  
IP address  
ISO  
Identity branch of the CSU menu tree.  
A shared boundary between functional units.  
The worldwide internetwork, which predominantly uses the TCP/IP protocol.  
An interconnected collection of networks (also called an internet).  
Internet Protocol address. The address assigned to an internet host.  
International Standards Organization.  
ITU  
International Telecommunications Union. The telecommunications agency of the United  
Nations, established to provide standardized communications procedures and practices.  
Before March 1993 it was called CCITT.  
kbps  
LAN  
Kilobits per second. One kilobit is usually taken to be 1,024 bits.  
Local Area Network. A privately owned and administered data communications network  
limited to a small geographic area.  
LBO  
LCD  
Line Build-Out. The amount of attenuation of the transmitted signal that is used to  
compensate for the length of wire between the transmitter and the receiver.  
Liquid Crystal Display. Thin glass plates containing liquid crystal material. When voltage is  
applied, the amount of light able to pass through the glass plates is altered so that  
messages can be displayed.  
LCP  
LED  
Link Control Protocol.  
Light Emitting Diode. A light or status indicator that glows in response to the presence of a  
certain condition (e.g., an alarm).  
link  
The physical connection between one location and another used for data transmission.  
The protocol that regulates the communication between two network nodes.  
link layer protocol  
link trap  
A trap that identifies the condition of the communications interface (linkDown or linkUp  
traps).  
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Glossary  
LLB  
LOF  
Line LoopBack. A test in which the received signal on the network interface is looped back  
to the network without change.  
Loss of Frame. Occurs when a DS1 terminal is unable to synchronize on the DS1 signal  
for some interval.  
LOFC  
Loss Of Frame Count. The number of LOFs declared.  
loopback test  
A test that verifies a device’s operation by connecting the device’s output to the device’s  
input.  
LOS  
Loss of Signal. The T1 line condition where there are no pulses.  
Local Loopback branch of the CSU menu tree.  
Link Quality Reports.  
Lpbk branch  
LQR  
MB  
Megabyte or megabytes. A unit of memory measurement equal to approximately one  
million bytes (typically 1,048,576 bytes).  
2
Mbps  
Megabits per second. One megabit is 1,048,576 (1024 ) bits.  
menu tree  
The structure containing the menu hierarchy starting at a Top-Level menu and extending  
down to various device functions.  
MIB  
Management Information Base. A database of managed objects used by SNMP to provide  
network management information and device control.  
MIB II  
MIB Release 2. The current Internet-standard MIB, defined by RFC 1213.  
A compact assembly functioning as a component in a larger system or unit.  
Maximum Request Unit.  
module  
MRU  
network  
network interface  
NMS  
A configuration of data processing devices used for information exchange.  
The T1 network interface connector on the rear panel of the CSU.  
Network Management System. A computer system used for monitoring and controlling  
network devices.  
node  
A connection or switching point on the network.  
object (SNMP)  
OOF  
A specific item within a Management Information Base (MIB).  
Out Of Frame. An error condition in which frame synchronization bits are in error.  
option  
A hardware or software function that can be selected or enabled as part of a configuration  
process.  
PAP  
Password Authentication Protocol. A security technique that requires a user password for  
access to a system.  
parity  
payload  
PBX  
A way of checking data accuracy by counting the number of bits that have a value of one.  
The information bits in a frame.  
Private Branch Exchange. Telephone switching equipment dedicated to one customer. A  
PBX connects private telephones to each other and to the public dial network.  
PC  
Personal Computer.  
PDU  
PDV  
Protocol Data Unit. A message containing protocol-specific information.  
Pulse Density Violation. The number of ones (marks, pulses) is not adequate for the line  
requirement.  
March 1999  
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Glossary  
Perf branch  
PLB  
Performance Report Branch of the CSU menu tree.  
Payload Loopback. Loopback mode that loops the information received on the T1 network  
interface back to the network after it has passed through receive and transmit framing  
section.  
port  
An access point for data entry or exit.  
The power input connector on the CSU.  
POWER connector  
power-on self-test  
A test that checks most hardware components when power is applied to the device or a  
reset is initiated.  
PPP  
Point-to-Point Protocol. A protocol for packet transmission over serial links, specified by  
Internet RFC 1661.  
PRM  
Performance Report Messages. Messages indicating the current state of a T1 line as  
specified by ANSI-T1-403.  
protocol  
PSTN  
A set of rules that determines the behavior of devices in achieving and maintaining  
communication.  
Public Switched Telephone Network. A network shared among many users who can use  
telephones to establish connections between two points. Also known as dial network.  
Ptrns branch  
pulse density  
Test Patterns branch of the CSU menu tree.  
A measure of the number of ones (marks, pulses) in relation to the total number of bits  
transmitted.  
QRSS  
RAM  
Quasi-Random Signal Source. A test pattern simulating a random pattern of digital ones  
and zeros used to simulate normal transmission.  
Random-Access Memory. Read/write memory that is volatile and loses its contents when  
power is removed.  
register  
Rel branch  
reset  
A part of the device’s memory that holds stored values.  
Release branch of the CSU menu tree.  
An initialization of the device that occurs at power-up or in response to a reset command.  
RFC  
Request for Comments. One of the documents published by the Internet Engineering Task  
Force that describe Internet protocols and policies.  
RIP  
Routing Information Protocol. A protocol for exchanging routing information.  
An 8-position modular connector.  
RJ48C  
RLB  
Repeater LoopBack. Loops the signal being sent to the network back to the DTE  
Drop/Insert and data ports after it has passed through the framing circuitry of the device.  
Rlpbk branch  
router  
Remote Loopback Branch on the CSU menu tree.  
A device that connects LANs by dynamically routing data according to destination and  
available routes.  
RS-232  
An Electronic Industries Association’s standard for a low-speed, 25-position, DCE/DTE  
interface.  
RS-232-like MIB  
RFC 1659, which defines objects for managing RS-232-type interfaces (e.g., RS-422,  
RS-423, etc.) and supports synchronous data ports and management communication  
ports on the device.  
RTS  
Request to Send. A signal from the DTE to the device, indicating that the DTE has data to  
send. V.24 circuit 105.  
3162-A2-GB20-30  
March 1999  
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Glossary  
RX  
Receive. To obtain transmitted signals.  
Receive Clock. V.24 circuit 115.  
RXC  
RXD  
Received Data. Pin 3 of the EIA-232 interface that is used by the DTE to receive data from  
the modem. Conversely, the modem uses Pin 3 to transmit data to the DTE.  
SDCP  
Shared Diagnostic Control Panel. A feature that allows carrier-mounted devices to share  
the same diagnostic control panel.  
self-test  
A test that checks most hardware components when power is applied to the device or a  
reset is initiated.  
server  
SES  
A device that offers a specific service, such as database management, to a client.  
Severely Errored Seconds. Usually defined as a second during which a specific number of  
CRC errors was exceeded, or an OOF or other critical error occurred.  
Set (SNMP)  
SLIP  
A command providing write access to SNMP MIB objects.  
Serial Line Internet Protocol. Protocol for serial operation on an internet.  
Simple Network Management Protocol. Protocol for open networking management.  
Status branch of the CSU menu tree.  
SNMP  
Stat branch  
STest branch  
StEvent  
Self Test Health branch of the CSU menu tree.  
Status Event Register. Records the occurrence of certain alarm conditions.  
subnet  
A portion of a network, which may be a physically independent network segment, that  
shares a network address with other portions of the network and is distinguished by a  
subnet number. A subnet is to a network what a network is to an internet.  
subnet mask  
TCP/IP  
A number that identifies the subnet portion of a network address. The subnet mask is a  
32-bit Internet address written in dotted-decimal notation with all the 1s in the network and  
subnet portions of the address.  
Transmission Control Protocol/Internet Protocol. The dominant protocol suite in the  
worldwide Internet, TCP allows a process on one machine to send data to a process on  
another machine using the IP. TCP can be used as a full-duplex or one-way simplex  
connection.  
Telnet  
Virtual terminal protocol in the Internet suite of protocols. Allows the user of one host  
computer to log into a remote host computer and interact as a normal terminal user of the  
remote host.  
trap (SNMP)  
A notification message to the SNMP manager when an unusual event occurs on a network  
device, such as a reinitialization.  
TStat branch  
T1  
Test Status branch of the CSU menu tree.  
A term for a digital carrier facility used to transmit a DS1 formatted digital signal at  
1.544 Mbps. It is used primarily in North America.  
TX  
Transmit. To send signals from a device.  
TXD  
Transmit Data. Pin 2 of the EIA-232 interface that is used by the DTE to transmit data to  
the modem. Conversely, the modem uses Pin 2 to receive data from the DTE.  
UAS  
UDP  
Unavailable Seconds. A count of one-second intervals when service is unavailable.  
User Datagram Protocol. A TCP/IP protocol describing how messages reach application  
programs within a destination computer.  
UL  
Underwriter’s Laboratories, Inc. An organization which promotes product safety.  
March 1999  
3162-A2-GB20-30  
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Glossary  
V.24  
An ITU-T standard for a low-speed, 25-position, DCE/DTE interface.  
An ITU-T standard for a high-speed, 34-position, DCE/DTE interface.  
An ITU-T standard for local and remote diagnostic loopback tests.  
An ITU-T standard for a data channel loopback (DCLB).  
An ITU-T standard for a data terminal loopback (DTLB).  
Volts alternating current.  
V.35  
V.54  
V.54 Loop 2  
V.54 Loop 3  
Vac  
Vdc  
Volts direct current.  
VF  
Voice Frequency. The part of the audio frequency range used to transmit voice sound  
(usually 300 Hz to 3400 Hz). This band is used by the modem for its modulated signal.  
WAN  
Wide Area Network. A network that spans a large geographic area.  
An SNMP trap that indicates that the device has reinitialized itself.  
External Transmit Clock. V.24 circuit 113.  
warmStart trap  
XTXC  
Yellow Alarm  
An outgoing signal transmitted when a DS1 terminal has determined that it has lost the  
incoming signal.  
3162-A2-GB20-30  
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Glossary  
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GL-10  
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Index  
A
B
abort  
B8ZS (Bipolar Eight Zero Substitution) coding  
backup capability, 3-34  
addressing. See IP (Internet Protocol) addressing  
agent, SNMP, 1-2  
BPV (Bipolar Violation) condition  
AIS (Alarm Indication Signal) condition  
cabling  
alarm messages. See messages, alarm  
allocation, DS0 channel. See channel allocation  
channel allocation  
CLOCK IN interface  
ASCII terminal/printer  
clocking  
async terminal interface  
COM Port  
AUX Port  
used with ASCII terminal/printer, 2-5, 4-8  
3162-A2-GB20-30  
March 1999  
IN-1  
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Index  
configuration options  
E
tables  
EER (Excessive Error Rate) condition  
Embedded Data Link (EDL)  
connectors, rear panel  
error messages. See messages, alarm  
F
Facility Data Link (FDL)  
failure analysis. See troubleshooting  
D
daisy chaining  
connectivity, 1-4, 2-3, 2-4  
data port. See PORT (1–2) interface  
database, SNMP, 1-2  
front panel  
DS0 channel allocation. See channel allocation  
DTE Drop/Insert interface  
I
indicators. See LEDs, front panel  
IP (Internet Protocol) addressing  
managed by SNMP, E-1  
March 1999  
3162-A2-GB20-30  
IN-2  
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Index  
L
M
maintenance  
LEDs, front panel  
manager, SNMP, 1-2  
messages  
alarm  
with ASCII terminal/printer, 1-2, 4-8  
status  
loopback  
MIBs, SNMP. See SNMP, MIBs  
N
network interface  
LOS (Loss Of Signal) condition  
O
OOF (Out Of Frame) condition  
options, strap. See configuration options  
3162-A2-GB20-30  
March 1999  
IN-3  
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Index  
P
reset  
PDV (Pulse Density Violation) condition, 3-3  
Point-to-Point Protocol (PPP)  
PORT (12) interface  
S
self-test  
managed by SNMP, E-1  
Serial Line Internet Protocol (SLIP)  
SNMP (Simple Network Management Protocol)  
power input  
connector, 1-3, 1-4  
configuration options  
power-up self-test  
manager, 1-2  
MIBs  
problem determination. See troubleshooting  
protocol, link layer, 3-16, 3-19  
status messages. See messages, status  
straps. See configuration options  
synchronous data port. See PORT (1–2) interface  
Q
R
rate  
rear panel  
connectors. See connectors, rear panel  
March 1999  
3162-A2-GB20-30  
IN-4  
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Index  
T
U
Telnet access  
configuration options  
V
V.54 Loop 2. See data channel loopback (DCLB)  
V.54 Loop 3. See data terminal loopback (DTLB)  
W
X
Y
Yellow Alarm condition  
test jacks  
timing. See clocking  
traps, SNMP. See SNMP, traps  
troubleshooting  
3162-A2-GB20-30  
March 1999  
IN-5  
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