ACCULINK
336x E1 NETWORK
TERMINATION UNIT
OPERATOR’S GUIDE
Document No. 3360-A2-GB20-20
December 1996
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Important Instructions
Important Safety Instructions
1. Read and follow all warning notices and instructions marked on the product or included in the
manual.
2. When an AC power source is used, this product is intended to be used with a three-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 three-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 may be 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. Use a Listed, minimum No. 26 AWG line cord for connection to the High
bit-rate Digital Subscriber Line (HDSL) network.
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 one of the
following: (1) a UL Listed/CSA certified power source with a Class 2 or Limited Power
Source (LPS) output for use in North America, or (2) a certified power source with a Safety
Extra Low Voltage (SELV) output for use in the country of installation.
Input power to the DC voltage configurations of this product must be provided by one of the
following: (1) a National Electric Code (NEC)/Canadian Electric Code (CEC) Class 2 circuit
for use in North America, or (2) a certified Safety Extra Low Voltage (SELV) circuit input for
use in the country of installation.
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.
3360-A2-GB20-20
December 1996
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ACCULINK 336x E1 NTU
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.
–
Notices
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.
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 RÉGLEMENT SUR LE
MATÉRIEL BROUILLEUR DU CANADA.
C
December 1996
3360-A2-GB20-20
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Table of Contents
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
3360-A2-GB20-20
December 1996
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ACCULINK 336x E1 NTU
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Self-Test Health . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10
SNMP Traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-11
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-12
Test Jacks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14
Test Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
Test Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-21
Lamp Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-24
Appendices
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ii
December 1996
3360-A2-GB20-20
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Preface
Objectives and Reader
Assumptions
This operator’s guide contains installation, operation,
and maintenance information for the ACCULINK 336x
E1 Network Termination Unit (NTU).
Reference Documents
•
•
•
•
•
CSA-22.2 No. 950-M89
CSA 108-M1983
FCC Part 15
UL 1950
It is assumed that you are familiar with the operation of
digital data communication equipment and NTUs in
particular. You should also be familiar with Simple
Network Management Protocol (SNMP) if you want your
E1 NTU to be managed by an SNMP manager.
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
Related Document
7800-A2-GB20
ACCULINK 3100 Series Open
Management Application for
HP OpenView User’s Guide
Extensions to the Generic-Interface MIB.
RFC 1229, May 1991
3360-A2-GB20-20
December 1996
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iii
Introduction
1
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
G.703 DTE Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Alarm Message Capability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Front Panel Emulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
SNMP Management Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Physical Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
Rear Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
Overview
Features
The E1 NTU acts as an interface between a High
bit-rate Digital Subscriber Line (HDSL) network and the
customer’s Data Terminal Equipment (DTE), converting
signals received from the DTE into the two binary, one
quaternary (2B1Q) signal format for transmission over the
HDSL network.
The E1 NTU optimizes network performance with a
wide range of features such as the following:
•
Software configuration menu displayed via a liquid
crystal display (LCD) to permit quick and easy
operation, and elimination of complicated hardware
strapping.
The E1 NTU’s G.703 DTE interface supports
2.048 Mbps (E1) data that is compatible with the signal
format of ITU Recommendation G.703 and the frame
structure of ITU Recommendation G.704.
•
•
Local or remote configuration and operation
flexibility.
Several loopback capabilities and test pattern
generators.
In addition to the G.703 DTE interface, the 336x E1
NTUs have one to four EIA 530A synchronous data ports
that may be configured for rates of 64 kbps to 1984 kbps.
•
•
•
G.703 DTE capability.
Alarm message display/print capability.
The 336x Series consists of a Model 3360 NTU
(2-port), a Model 3364 NTU (4-port), and a Model 3365
NTU (1-port). Differences between these models are
discussed where applicable throughout this guide.
Front panel emulation via Windows-based Front
Panel Emulation software.
•
Network management provided through
industry-standard Simple Network Management
Protocol (SNMP).
3360-A2-GB20-20
December 1996
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1-1
ACCULINK 336x E1 NTU
ACCULINK 3100 Series Open Management Application
for HP OpenView User’s Guide.
G.703 DTE Interface
The G.703 DTE interface is compatible with the signal
format of ITU Recommendation G.703 and the frame
structure of ITU Recommendation G.704. This interface
allows DTEs/PBXs to share the network with other
high-speed equipment.
The E1 NTU supports the following MIBs:
•
MIB II – Defines the general objects for use in
Transmission Control Protocol/Internet Protocol
(TCP/IP) internets and provides general
information about the E1 NTU. MIB II is
backward-compatible with MIB I.
Alarm Message Capability
•
•
DS1/E1 MIB – Defines objects for managing E1
interfaces and supports the network and G.703 DTE
interfaces on the E1 NTU.
The E1 NTU can be attached, either locally or
remotely, to an ASCII terminal or printer to display or
print alarm messages. The communications (COM) port
can be used as the destination for Alarm Set and Alarm
Clear messages. This enables an ASCII terminal or printer
to monitor the E1 NTU for alarm conditions. Alarms can
also be displayed on a PC that is using a terminal
emulation package.
RS-232-like MIB – Defines objects for managing
RS-232-type interfaces (e.g., RS-422, RS-423, etc.)
and supports synchronous data ports (PORTs 1– 4)
and management communication ports (AUX and
COM ports) on the E1 NTU.
•
Generic-Interface Extension MIB – An extension to
MIB II that defines additional objects for control of
generic interfaces in MIB II. It supports control of
tests on the G.703 DTE and synchronous data
interfaces that are not supported by other MIBs.
Front Panel Emulation
The E1 NTU offers functionality through Front Panel
Emulation software that is similar to that provided by the
E1 NTU front panel. The E1 NTU can either be locally or
remotely attached to a 386 or higher personal computer
(PC) that has at least four megabytes (MB) of
•
Enterprise MIB – Defines objects that are unique to
Paradyne devices.
random-access memory (RAM). (An external modem is
required for remote attachment.) A copy of the E1 NTU
front panel appears on the PC. The functionality of the
front panel is available by clicking on the function keys
with the mouse rather than by pressing keys from the
actual front panel. For more information, refer to
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 E1 NTU can be daisy chained
together by connecting the COM port of one device to the
AUX port of the other, providing SNMP connectivity.
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 E1 NTU); and a
Management Information Base (MIB) consisting of a
database of managed objects.
The SNMP management system can communicate to
the E1 NTU remotely through the Facility Data Link
(FDL) or (for 2-port and 4-port E1 NTUs) the
synchronous data port’s Embedded Data Link (EDL).
FDL provides an in-band channel for performance and
control signals on the network interface. It uses the spare
in time-slot zero as defined in ITU
bit S
a4
Users of the external SNMP manager can issue “Get”
and “Set” commands to an object in the SNMP database
maintained by the E1 NTU.
Recommendation G.704. EDL provides the ability to
detect and synchronize on a framing pattern, provides
cyclic redundancy checking (CRC), and maintains
near-end and far-end performance statistics.
The E1 NTU can be managed by any industry-standard
SNMP manager. Paradyne provides an SNMP application
that runs on a Hewlett-Packard HP OpenView network
management platform. For more information, refer to the
1-2
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3360-A2-GB20-20
Introduction
Rear Panel
Physical Description
The E1 NTU rear panel contains the connectors and
switches required for the operation of the E1 NTU
The 336x Series consists of a Model 3360 NTU
(2-port), a Model 3364 NTU (4-port), and a Model 3365
NTU (1-port).
Front Panel
•
One 2-line, 16-alphanumeric-character-per-line
liquid crystal display (LCD)
•
One 7-button keypad (three Function and four
directional keys)
•
•
Twelve light-emitting diodes (LEDs)
Six test jacks
LCD
KEYPAD
F1
F2
F3
E1
E1
HDSL
LINE
Lp1
LINE MON
In
In
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
Lp2
Out
Out
496-14728-01
TEST JACKS
LEDs
Figure 1-1. Front Panel
3360-A2-GB20-20
December 1996
1-3
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ACCULINK 336x E1 NTU
G.703
HDSL
NETWORK
AUX
PORT
COM
PORT
TX
RX
POWER
RX SHIELD
120Ω
120Ω
IN
OPEN
EARTH
OUT
75Ω
75Ω
75Ω
CAUTION: AUX PORT OR COM PORT MUST
NOT BE CONNECTED TO HDSL NETWORK
PORT 3
PORT 4
CLOCK IN
PORT 1
PORT 2
495-14733
Figure 1-2. Model 3360 Rear Panel
G.703
COM
HDSL
NETWORK
AUX
PORT
TX
RX
POWER
RX SHIELD
PORT
120Ω
120Ω
IN
OPEN
EARTH
OUT
75Ω
75Ω
75Ω
CAUTION: AUX PORT OR COM PORT MUST
NOT BE CONNECTED TO HDSL NETWORK
PORT 3
PORT 4
CLOCK IN
PORT 1
PORT 2
495-14734
Figure 1-3. Model 3364 Rear Panel
1-4
December 1996
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Introduction
TX
RX
POWER
RX SHIELD
PORT 1
120Ω
OPEN
IN
EARTH
AUX
PORT
COM
PORT
OUT
HDSL
NETWORK
120Ω
75Ω
75Ω
75Ω
G.703
495-14732
Figure 1-4. Model 3365 Rear Panel
Table 1-1
Rear Panel Connectors and Switches
Name
Function
POWER
Supplies power to the E1 NTU by providing an attachment for the ac power
module or the optional dc power cable (+24 or –48 Vdc).
AUX PORT
COM PORT
Supports SNMP LAN Adapter or daisy-chain connections.
Provides access to a locally connected PC, an ASCII terminal or printer, or an
SNMP management link.
HDSL NETWORK
Provides access to the HDSL network.
G.703—120Ω
Provides a 120 ohm balanced G.703 interface.
G.703—120Ω/75Ω (switch)
Selects either a 120 ohm balanced G.703 interface (the switch is IN) or a 75 ohm
unbalanced G.703 interface (the switch is OUT).
G.703—75Ω TX/RX
Provides two BNC connectors (Transmit and Receive) for a 75 ohm unbalanced
G.703 interface.
G.703—RX SHIELD (switch)
Selects either an “open” or “earth” shield connection for the 75 ohm RX interface.
(This switch must be set to “open” when using the 120 ohm interface.)
CLOCK IN (Models 3360/3364)
PORTs 1–4
Used to attach an external clock to the E1 NTU.
Used to connect the customer’s synchronous data DTE to the E1 NTU.
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1-5
Installation
2
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Application Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
SNMP Connection Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
Important Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
Optional Power Sources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
Installing the +24 Vdc Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
Installing the Single –48 Vdc Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Installing the Redundant –48 Vdc Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
Cabling Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
Power-Up Self-Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
The E1 NTU is connected to the customer’s equipment
through one of the synchronous data ports (PORTs 1– 4)
or the G.703 DTE port. It is connected to the network
through the HDSL Network interface.
Overview
This chapter contains information for installing your
E1 NTU. It includes application examples, cabling, and
power-up information.
The E1 NTU normally operates in conjunction with a
Line Termination Unit (LTU) that is installed in an
ACCULINK Access Controller (AAC).
Application Examples
Some common applications for the E1 NTU are:
The E1 NTU acts as an interface between a High
bit-rate Digital Subscriber Line (HDSL) network and the
customer’s equipment.
•
Shared access to network-based services
•
•
NETWORK
SERVICES
PBX
HDSL
AAC
LTU
NTU
LAN
ROUTER
496-14736-01
Figure 2-1. Shared Access Application Example
3360-A2-GB20-20
December 1996
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ACCULINK 336x E1 NTU
NETWORK
HDSL
HDSL
AAC
LTU
AAC
LTU
LAN
ROUTER
NTU
NTU
LAN
ROUTER
496-14735-01
Figure 2-2. Point-to-Point Application Example
HDSL
NTU
FRACTIONAL
NETWORK
LAN
ROUTER
LAN
ROUTER
E1
AAC
LTU
E1
DSU/CSU
DSU/CSU
LAN
ROUTER
LAN
ROUTER
496-14737-01
Figure 2-3. Fractional E1 Application Example
2-2
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Installation
•
•
Daisy chaining the COM port of one device to the
AUX port of the other to provide SNMP
SNMP Connection Examples
The E1 NTU can be connected to an SNMP
management system in a number of ways. Some examples
include:
Remotely managing the E1 NTU through the
Facility Data Link (FDL) or the synchronous data
•
•
•
Directly connecting the COM port to the SNMP
Connecting the COM port to a network device (e.g.,
NOTE
EDL is only available on 2-port
and 4-port E1 NTUs.
Connecting the COM port or the AUX port to an
external LAN Adapter for Ethernet SNMP
LAN
ROUTER
SNMP
ETHERNET
NTU
NETWORK
HDSL
AAC
LTU
SNMP
PPP/SLIP
496-14738-01
Figure 2-4. Direct Connection to an SNMP Manager
LAN
ROUTER
SNMP
ETHERNET
NTU
NETWORK
HDSL
AAC
LTU
SNMP
PPP/SLIP
496-14739-01
Figure 2-5. Connection through a Router to SNMP
3360-A2-GB20-20
December 1996
2-3
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ACCULINK 336x E1 NTU
SNMP
NMS
LAN
ROUTER
NTU
ETHERNET
NETWORK
HDSL
AAC
LTU
SNMP
PPP
LAN
ADAPTER
496-14740-01
Figure 2-6. Connection through a LAN Adapter to SNMP
NTU
HDSL
AAC
SNMP
PPP
LTU
NTU
NTU
HDSL
HDSL
AAC
LTU
NETWORK
SNMP
NMS
LAN
ROUTER
AAC
LTU
SNMP
PPP
ETHERNET
SNMP
PPP
LAN
ADAPTER
496-14741-01
Figure 2-7. LAN Adapter and Daisy Chaining for SNMP Support
LAN
ROUTER
NTU
NTU
ETHERNET
NETWORK
HDSL
HDSL
AAC
LTU
AAC
LTU
SNMP
FDL/EDL
SNMP
PPP
LAN
ADAPTER
496-14742-01
Figure 2-8. Remote SNMP Management through FDL/EDL
2-4
December 1996
3360-A2-GB20-20
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Installation
Using the optional dc power cable, the E1 NTU is
Important Instructions
Read and follow all warning notices and instructions
marked on the E1 NTU or included in this guide.
capable of operating on either a +24 Vdc power source,
–48 Vdc single source battery, or –48 Vdc redundant
source batteries (for power backup). To select the power,
choose one of the following power supply types.
For a complete listing of the safety instructions, see the
this guide.
Installing the +24 Vdc Power Supply
To install the E1 NTU using a +24 Vdc power supply,
HANDLING PRECAUTIONS
FOR
STATIC-SENSITIVE DEVICES
To install the +24 Vdc power supply,
This product is designed to protect
sensitive components from damage
due to electrostatic discharge (ESD)
during normal operation. When
performing installation procedures,
however, take proper static control
precautions to prevent damage to
equipment. If you are not sure of the
proper static control precautions,
contact your nearest sales or service
representative.
1. Connect the green wire to a suitable earth ground.
2. Connect the white wire to the +24 Vdc return.
3. Connect the orange wire to the +24 Vdc source.
4. Cut the black, red and blue wires off at the outer
insulation.
5. Plug the power connector into the E1 NTU.
Optional Power Sources
The E1 NTU is typically powered by the ac power
module. Use the following procedures only if you want
to use an optional dc power source.
NTU POWER
PLUG
TO CUSTOMER-SUPPLIED BATTERY
BLACK
1
X
RED
2
X
GREEN
3
EARTH GROUND
+24 VDC RETURN
+24 VDC SOURCE
WHITE
4
ORANGE
5
BLUE
6
X
CABLE NUMBER 3100-F1-520
495-14743
Figure 2-9. +24 Vdc Power Supply Pinouts
3360-A2-GB20-20
December 1996
2-5
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ACCULINK 336x E1 NTU
2. Connect the green wire to a suitable earth ground.
Installing the Single –ā48 Vdc Power Supply
To install the E1 NTU using a single source –48 Vdc
procedure.
3. Connect the orange and blue wires to the –ā48 Vdc
input source.
4. Cut the white wire off at the outer insulation.
5. Plug the power connector into the E1 NTU.
To install the –48 Vdc single source power supply,
1. Connect the black and red wires to the –48 Vdc
return source.
NTU POWER
PLUG
TO CUSTOMER-SUPPLIED BATTERY
BLACK
1
–48 VDC RETURN
EARTH GROUND
RED
2
GREEN
3
WHITE
4
X
ORANGE
5
–48 VDC INPUT
BLUE
6
CABLE NUMBER 3100-F1-520
495-14744
Figure 2-10. –ā48 Vdc Single Source Power Supply Pinouts
2-6
December 1996
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Installation
3. Connect the green wire to a suitable earth ground.
Installing the Redundant –ā48 Vdc Power
Supply
4. Connect the orange wire to the –48 Vdc input
source B.
To install the E1 NTU using a redundant –48 Vdc
procedure.
5. Connect the blue wire to the –48 Vdc input
source A.
To install the redundant –48 Vdc power supply,
6. Cut the white wire off at the outer insulation.
7. Plug the power connector into the E1 NTU.
1. Connect the black wire to the –48 Vdc return
source B.
2. Connect the red wire to the –48 Vdc return
source A.
NTU POWER
PLUG
TO CUSTOMER-SUPPLIED BATTERY
BLACK
1
–48 VDC RETURN B
–48 VDC RETURN A
EARTH GROUND
RED
2
GREEN
3
WHITE
4
X
ORANGE
5
–48 VDC INPUT B
–48 VDC INPUT A
BLUE
6
CABLE NUMBER 3100-F1-520
495-14745
Figure 2-11. –ā48 Vdc Redundant Source Power Supply Pinouts
3360-A2-GB20-20
December 1996
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ACCULINK 336x E1 NTU
Cabling Examples
NOTE
The E1 NTU is supplied with an ac power module.
The 120Ω/75Ω switch selects
either the 120 ohm balanced
G.703 interface or the 75 ohm
unbalanced G.703 interface. The
RX SHIELD switch selects either
an “open” or “earth” shield
Optional cables that you can order from the company
connection for the 75 ohm RX
interface. (This switch must be set
to “open” when using the 120 ohm
interface.)
HDSL
HDSL
NETWORK
HDSL
NETWORK
HDSL
COM PORT
NETWORK
COM PORT
G.703
G.703
HDSL
NETWORK
HDSL
NETWORK
AUX
PORT
COM
PORT
AUX
PORT
COM
PORT
POWER
POWER
TX
RX
TX
RX
RX SHIELD
OPEN
RX SHIELD
120Ω
120Ω
120Ω
IN
OPEN 120Ω
IN
EARTH
EARTH
OUT
OUT
75Ω
75Ω
75Ω
75Ω
CAUTION: AUX PORT OR COM PORT MUST
NOT BE CONNECTED TO HDSL NETWORK
CAUTION: AUX PORT OR COM PORT MUST
NOT BE CONNECTED TO HDSL NETWORK
75Ω
75Ω
PORT
PORT
3
1
PORT
4
PORT
PORT
3
1
PORT
4
NTU
NTU
CLOCK IN
PORT
2
CLOCK IN
PORT
2
SERIAL
PORT
TO DC
POWER
3100-F1-520
(OPTIONAL)
TO AC
POWER
MODULE
3100-F1-540
SNMP
MANAGER
NOTE:
3100 SERIES
OR
FRONT PANEL
EMULATION
SOFTWARE,
3100-C1-010
495-14746
Figure 2-12. Cabling Examples
2-8
December 1996
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Installation
If the self-test fails, the Failed screen appears for
five seconds. The Fail LED lights, and an
Power-Up Self-Test
eight-digit failure code (xxxxxxxx) is displayed for
use by service personnel to determine the cause of
the self-test failure. The E1 NTU continues to try
to operate. If you are in doubt about the results of
the self-test, use the Self-Test Health command to
Health section in Chapter 4, Maintenance).
After you connect the E1 NTU to a power source, the
unit performs the power-up self-test to ensure that it is in
good working order. The E1 NTU 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
The self-test includes a basic processor test, a limited
memory test, a code checksum test, and basic verification
tests of the internal components. The front panel LCD
displays the progress and pass/fail status of these
power-up tests.
Self-Test:
Failed xxxxxxxx
F3
F1
F2
The power-up self-test consists of the following steps:
1. Once the E1 NTU is plugged in, the In Progress
screen appears and the Fail LED blinks ON and
Off continuously.
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
495-14747
4. The top-level menu screen appears.
Self-Test:
In Progress
E1 HDSL NTU
F3
F1
F2
Stat
Test
Cnfig
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
F3
F1
F2
495-14747
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
2. All the LEDs then start to flash simultaneously in
the pattern twice ON, then Off. Then, the LCD
begins to flash characters and numbers in the same
pattern, alternating with the flashing LEDs.
495-14749
3. If the self-test is successful, the Passed screen
appears for one second, the Fail LED turns Off
and the OK LED lights.
Self-Test:
Passed
F3
F1
F2
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
495-14748
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2-9
Operation
3
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Using the Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
LCD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
Keypad. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
Test Jacks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Displaying Unit Identity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
Displaying LED Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Selecting the G.703 DTE or Data Port for LED Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
Changing Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
Displaying/Editing Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
Saving Edit Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13
Selecting/Copying to a Specific Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13
Configuring the E1 NTU for SNMP Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14
Selecting the Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14
Setting the IP Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15
Selecting the Link Layer Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
Specifying the Community Name(s) and Access Type(s) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17
Configuring SNMP Traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-18
Enabling SNMP Trap Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-18
Selecting the Number of Trap Managers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
Configuring a Destination for SNMP Traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
Configuring DS0 Channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-20
Displaying DS0 Channel Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-27
Allocating Data Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-28
Block Channel Assignment Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-29
Individual Channel Assignment Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-30
Allocating DS0 Channels from the G.703 DTE Interface to the Network Interface . . . . . . . . . . . . . . 3-30
Clearing DS0 Channel Allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-32
Selecting the Timing Source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33
Configuring for Network Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-34
Configuring for External Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-34
Acquiring/Releasing the User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-35
Acquiring the Active User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-35
Releasing the Active User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-35
Resetting the E1 NTU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-36
Download Operations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-36
3360-A2-GB20-20
December 1996
3-1
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ACCULINK 336x E1 NTU
Overview
Using the Front Panel
This chapter contains information for operating your
E1 NTU. It includes a description of the front panel and
sample procedures for configuring the E1 NTU.
LCD, a keypad, test jacks, and 12 LEDs.
NOTE
You can display a graphical
representation of the E1 NTU
front panel on an attached PC
LCD
KEYPAD
F1
F2
F3
E1
E1
HDSL
LINE
Lp1
LINE MON
In
In
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
NETWORK DTR TXD RXD CTS RTS
Lp2
Out
Out
496-14728-01
TEST JACKS
LEDs
Figure 3-1. E1 NTU Front Panel
3-2
December 1996
3360-A2-GB20-20
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Operation
LCD
Keypad
navigate through the menu tree and select choices
presented on the second line of the LCD.
•
Messages such as alarms, command/test
completion, and action in progress
•
Front panel menu tree information (see
F3
F1
F2
Figure 3-3. Keypad
F3
F1
F2
Use the
key to move up the menu.
Figure 3-2. LCD
The LCD displays status messages as requested via the
Device Health and Status branch of the front panel menu
Maintenance). In addition, the highest level status
message appears on the front panel automatically if no
front panel action has occurred at the E1 NTU for the past
five minutes.
F3
F1
F2
Use the
key to exit any part of the menu in which
you may be operating. You immediately return to the
top-level menu screen shown on the front panel menu (see
The LCD also lists commands, configuration options,
and test results. In most cases, the top line shows the
command or option name and default value, while the
second line displays options and responses. When a
response is required, select from the options displayed
directly above the Function keys (F1, F2, F3); make your
choice by pressing the corresponding Function key.
F3
F1
F2
Use the Function (F1, F2, F3) keys to make selections
from the choices presented on the second line of the LCD.
When this line presents choices, it is generally divided
into three sections, each displayed directly above one of
the Function keys. When your choice appears above one
of the Function keys, press that key to select that choice.
F3
F1
F2
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3-3
ACCULINK 336x E1 NTU
The scroll keys ( and ) serve one of two functions,
depending on whether a menu screen or a data entry
screen appears on the front panel.
LEDs
There are twelve LEDs on the E1 NTU front panel.
between the G.703 DTE port and the data ports. Refer to
the Selecting the G.703 DTE or Data Port for LED
status the LEDs display.
For data entry screens, the
character to the left while the
character to the right.
key scrolls one
key scrolls one
For menu screens, the
key scrolls to the previous
menu choice while the
choice.
key scrolls to the next menu
OK FAIL TEST SIG1 SIG2 OOF ALRM SIG OOF ALRM PDV BPV
If a choice is available to the left of the screen, the
character ← appears on the top line. If a choice is
available to the right of the screen, the → character
appears on the top line. If choices are available to both the
right and the left of the screen, two arrows appear ( ).
The arrows indicate that you must use the scroll keys to
bring the additional options onto the screen.
NETWORK
DTR TXD RXD CTS RTS
495-14749
Figure 3-5. E1 NTU LEDs
A green LED indicates normal operation. A yellow
LED indicates a warning (for the G.703 DTE port) 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:
F3
F1
F2
•
•
•
•
Test Jacks
Six test jacks are located on the front panel
in Chapter 4, Maintenance.
HDSL
NET
E1
E1
LINE MON
Lp1
In
In
Lp2
Out
Out
495-14753
Figure 3-4. Test Jacks
3-4
December 1996
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3360-A2-GB20-20
Operation
Table 3-1
System LEDs
Name
Color
Meaning
OK
Green
Indicates the current operational state of the E1 NTU.
ON:
The E1 NTU is operational and has power.
OFF:
The E1 NTU 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.
A self-test is in progress.
BLINKING:
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
SIG1
SIG2
OOF
Green
Green
Yellow
Yellow
Monitors the signal being received from the network.
ON:
A recoverable signal is being received from the network on loop 1.
OFF:
The signal cannot be recovered from the network on loop 1 (a Loss
of Signal condition exists).
Monitors the signal being received from the network.
ON:
A recoverable signal is being received from the network on loop 2.
OFF:
The signal cannot be recovered from the network on loop 2 (a Loss
of Signal condition exists).
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
Indicates whether an alarm condition exists on the received network signal.
ON:
An alarm condition (LOS, LOF, EER, RAI, AIS, RMA, MFA) exists on
the received network signal. Use the Device Health and Status
command to determine the alarm type.
OFF:
No alarm condition exists on the network interface signal.
3360-A2-GB20-20
December 1996
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3-5
ACCULINK 336x E1 NTU
Table 3-3
G.703 DTE Port LEDs
Name
Color
Meaning
SIG
Green
Yellow
Yellow
Monitors the signal being received from the G.703 DTE port.
ON:
A recoverable signal is being received from the G.703 DTE port.
OFF:
The signal cannot be recovered from the G.703 DTE port (a Loss of
Signal condition exists).
OOF
Monitors Out Of Frame (OOF) conditions on the received G.703 DTE 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 G.703 DTE signal.
ON:
An alarm condition (LOS, LOF, EER, RAI, AIS, RMA, MFA) exists on
the received G.703 DTE signal. Use the Device Health and Status
command to determine the alarm type.
OFF:
No alarm condition exists on the G.703 DTE Interface signal.
PDV
BPV
Yellow
Yellow
Monitors Pulse Density Violations (PDV) on the received G.703 DTE signal.
ON:
At least one PDV was detected (and corrected) on the received
G.703 DTE signal during the sampling period.
OFF:
No PDVs were detected on the received G.703 DTE signal during
the sampling period.
Monitors Bipolar Violations (BPV) on the received G.703 DTE signal.
ON:
At least one BPV was detected (and corrected) on the received
G.703 DTE signal during the sampling period.
OFF:
No BPVs were detected on the received G.703 DTE signal during
the sampling period.
3-6
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3360-A2-GB20-20
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.
DTR is not being asserted.
OFF:
TXD
RXD
Yellow
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 E1 NTU.
ON:
Ones are being received from the synchronous data DTE.
Zeros are being received from the synchronous data DTE.
OFF:
CYCLING:
Both ones and zeros are being received from the synchronous
data DTE.
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 E1 NTU.
ON:
Ones are being sent to the synchronous data DTE.
OFF:
Zeros are being sent to the synchronous data DTE.
Both ones and zeros are being sent to the synchronous data DTE.
CYCLING:
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 E1 NTU.
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.
RTS is not being asserted.
OFF:
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ACCULINK 336x E1 NTU
4. The following screens appear in the order listed
Displaying Unit Identity
each time you press the
key.
The identity of the E1 NTU (serial number, model
number, software revision level, hardware revision level,
and customer identification) is available through the
Status branch of the front panel menu (see Appendix A,
Identity:
Ser=xxxxxxx
F3
F3
F3
F3
F3
F3
F3
F1
F2
The customer identification is the only identity number
you can change.
To display the E1 NTU’s identity (ID),
Identity:
Mod=xxxx-xx-xxx
1. From the top-level menu screen, select Stat.
F1
F2
E1 HDSL NTU
Stat
Test
Cnfig
F3
Identity:
Cust ID=xxxxxxxx
F1
F2
F1
F2
2. From the Status screen, press the
ID selection appears on the screen.
key until the
Identity:
SRev=xx.xx.xx
Status:
HDSL DevHS STest
F1
F2
F3
F1
F2
Identity:
CCA1=xxxx-xxx
3. Select ID.
Status:
TStat
F1
F2
LED
ID
F3
F1
F2
Identity:
CCA2=xxxx-xxx
F1
F2
Identity:
CCA3=xxxx-xxx
F1
F2
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Operation
To change the customer identification (CID),
4. Select CID.
1. From the top-level menu, press the
the Ctrl selection appears on the screen.
key until
Control:
Reset CID
DL
E1 HDSL NTU
F3
F1
F2
Stat
Test
Cnfig
F3
F1
F2
5. Use the
and
keys to position the cursor
under the desired character. You must enter a
character before the
moves the cursor to the
next space to the right.
2. Select Ctrl.
CustID:xxxxxxxx
E1 HDSL NTU
Cnfig Ctrl
Up
Down Save
Test
F3
F1
F2
F3
F1
F2
6. Enter the desired ID. Press F1 (Up) and F2
(Down) to scroll up and down through the valid
characters/numbers for the customer ID. Valid
characters are 0 through 9, #, -, ., /, A to Z, and
blank space. Press F3 (Save) to save the ID.
3. From the Control screen, press the
key until
the CID selection appears on the screen.
Control:
Rel
LED ClrReg
CustID:xxxxxxxx
F3
F1
F2
Up
Down Save
F3
F1
F2
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3-9
ACCULINK 336x E1 NTU
4. From the Select LEDs screen, press the Function
key that corresponds to E1 or the port for which
you want to display LEDs. Use the scroll keys, if
necessary.
Displaying LED Conditions
The same conditions monitored by the front panel
LEDs can also be monitored by the LED command. This
command is most useful when the E1 NTU is being
Emulation). When using Front Panel Emulation, no LEDs
are shown on the PC’s screen; you must use the Stat
command procedure described below to get LED
information.
Select LEDs:
E1
Prt1
Prt2
F3
F1
F2
NOTE
If you chose E1, the LED Display screen lists the
LED signals, two at a time, on the second line. A
vertical bar at the left of the LED name indicates
the condition is ON, while an underscore indicates
the condition is Off.
The following procedure is an
example only. Screen displays
may vary depending on the
model of the E1 NTU.
LED Display:
_Test _NetSig1
To display LED conditions on the front panel screen,
1. From the top-level menu screen, select Stat.
F3
F1
F2
E1 HDSL NTU
If you chose a port, the Port n LEDs screen lists
the LED signals, two at a time, on the second line.
A vertical bar at the left of the LED name
indicates the condition is ON, while an underscore
indicates the condition is Off.
Stat
Test
Cnfig
F3
F1
F2
2. From the Status screen, press the
LED selection appears on the screen.
key until the
Port n LEDs:
_DTR _TXD
Status:
F3
F1
F2
HDSL DevHS STest
F3
F1
F2
5. Use the
and
keys to scroll LED names
onto the screen.
3. From the Status screen, select LED.
Status:
Perf
TStat LED
F3
F1
F2
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3360-A2-GB20-20
Operation
The currently selected port name appears on the
top line of the LCD. DTE indicates the G.703
DTE port.
Selecting the G.703 DTE or
Data Port for LED Display
Use the LED command on the Control branch to select
which port’s (G.703 DTE or data port) status appears on
the five shared LEDs on the front panel.
LED Dsply: DTE
DTE
Prt1
Prt2
F3
F1
F2
NOTE
The following procedure is an
example only. Screen displays
may vary depending on the
model and configuration of the
E1 NTU.
4. From the LED Dsply screen, press the Function
key that corresponds to the G.703 DTE or data
port for which you want the LEDs to display. Use
the scroll keys, if necessary.
Select DTE to monitor the G.703 DTE port’s SIG,
OOF, ALRM, PDV, and BPV status signals on the
shared LEDs.
To select a port for LED display,
1. From the top-level menu screen, press the
until the Ctrl selection appears on the screen.
key
Select a particular data port to monitor the data
port’s DTR, TXD, RXD, CTS, and RTS control
signals on the shared LEDs.
E1 HDSL NTU
Stat
Test
Cnfig
Changing Configuration
Options
F3
F1
F2
The E1 NTU 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
E1 NTU; invalid combinations of configuration options
do not appear. For example, menus displayed for the
Model 3360 (2 ports) and the Model 3364 (4 ports) differ
due to the number of ports available. Also, if the G.703
DTE interface selection is disabled, many of the menu
choices do not appear. Be aware that although all options
are shown in this guide, what you see on your E1 NTU
varies with your configuration.
2. Select Ctrl.
E1 HDSL NTU
Test Cnfig Ctrl
F3
F1
F2
3. From the Control screen, select LED.
The E1 NTU offers four sets of configuration options
located in the following memory areas:
Control:
•
Active (Activ). The configuration option set active
for the E1 NTU is stored here. Before a
Rel
LED ClrReg
configuration option set becomes active for the E1
NTU, you must save the set to the Active area.
When the E1 NTU is shipped from the factory, the
Active configuration option set is identical to the
Factory set. This area can be written to and controls
the current operation of the device.
F3
F1
F2
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ACCULINK 336x E1 NTU
•
•
•
Customer 1 (Cust1). The first of two sets of
customer-defined configuration options. This area
can be written to.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
Customer 2 (Cust2). The second of two sets of
customer-defined configuration options. This area
can be written to.
Load from:
Activ Cust1
Factory (Fact). This is a set of configuration
options preset at the company. This set is
determined by what is considered to be the most
common configuration used in the E1 NTU market.
Factory options are read-only.
F3
F1
F2
3. Select Edit.
The configuration options are divided into functional
groups. Appendix C contains a list of the configuration
options and defaults. These groups are:
Choose Funct:
Edit
Save
•
•
•
•
•
•
•
•
•
DTE (G.703) Interface
Port
F3
F1
F2
Network Interface
Channel
4. From the Edit screen, select the functional group
you want to edit by pressing the appropriate
Function key. Use the scroll keys, if necessary.
(The NET selection is shown as an example only.)
General
User Interface
Alarm
Edit:
General SNMP
SNMP Trap
DTE
Port
NET
F3
F1
F2
Use the Configuration (Cnfig) branch of the front panel
menu tree to display or change E1 NTU configuration
The configuration options for the selected
functional group appear on the front panel one
option at a time. The option name appears on
Line 1 with the current value next to it. To reach
other options, use the Next and Previous selections
to scroll forward and backward through the group
of options.
Displaying/Editing Configuration Options
To display/edit configuration options,
1. From the top-level menu screen, select Cnfig.
HDSL Mode:NTU
E1 HDSL NTU
Next
NTU
LTU
Stat
Test
Cnfig
F3
F1
F2
F3
F1
F2
5. Press the appropriate Function key to choose
another value. Use the scroll keys, if necessary.
6. Use the Save procedure to save your changes to
the Active or Customer area.
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3360-A2-GB20-20
Operation
Saving Edit Changes
Selecting/Copying to a Specific Port
Save edit changes to the Active 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.
For the E1 NTU, you have the capability of selecting a
specific port to configure, and then (for 2-port and 4-port
E1 NTUs) copying the configuration options from that
port to another port (or to all ports).
NOTE
NOTE
The following procedure is an
example only. Screen displays
may vary depending on the
model and configuration of the
E1 NTU.
If you attempt to exit the Edit
function after making changes
without performing a Save, the E1
NTU prompts you with Save
Options? Choose Yes or No.
To select a specific port to configure,
To save edit changes,
1. From the top-level menu screen, select Cnfig.
1. From the Choose Function screen (one level above
the Edit screen, two levels below the top-level
menu screen), select Save.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
Choose Funct:
3. Select Edit.
Edit
Save
4. From the Edit screen, select Port.
F3
F1
F2
Edit:
DTE
Port
NET
2. Choose whether you want to save to the Active,
Customer 1, or Customer 2 area. Use the scroll
keys, if necessary.
F3
F1
F2
Save Edit to:
Activ Cust1
5. From the Port Select screen, press the Function
key that corresponds to the port you want to
configure. Use the
onto the screen, if necessary. Configure the port
key to scroll addition ports
F3
F1
F2
Port Select:
Copy Prt1
Prt2
F3
F1
F2
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ACCULINK 336x E1 NTU
To copy the configuration options to one or all ports,
6. From the Port Select screen, select Copy.
•
•
Specify the two community names that are allowed
to access the device’s Management Information
Base (MIB).
Configure the device to send traps to the SNMP
manager, if desired.
Port Select:
Copy Prt1
Prt2
Selecting the Port
F3
F1
F2
The SNMP manager or network device (e.g., a router)
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 or Token Ring connectivity. Also, the E1 NTU
can be daisy chained together by connecting the COM
port of one device to the AUX port of the other, providing
SNMP connectivity.
7. Select the port from which you want to copy the
configuration options using the corresponding
Function key.
Copy From:
Prt1
Prt2
Prt3
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.
F3
F1
F2
The example shown below assumes that the COM port
is being used as the link to the SNMP manager.
8. Select the port to which you want to copy the
configuration options using the corresponding
Function key. Or, press F1 (All) to choose to copy
to all ports.
To select the COM port as the management link,
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Copy To:
All
Prt1
Prt2
Function key. Use the scroll keys, if necessary.
F3
F1
F2
3. Select Edit.
4. From the Edit screen, press the
key until the
User selection appears on the screen.
Configuring the E1 NTU for
SNMP Management
5. Select User.
To configure the E1 NTU for management by an
SNMP management system you must,
Edit:
Chan Gen
User
•
Select and configure the port that provides the link
to the SNMP management system.
F3
F1
F2
•
Set the Internet Protocol (IP) address and subnet
mask needed to access the device (see Appendix F,
6. Press F1 (Next) until the Com Use configuration
option appears.
•
Select the link layer protocol (PPP or SLIP) for the
port.
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3360-A2-GB20-20
Operation
7. Select SNMP to configure the COM port as the
management link to an external SNMP manager.
6. From the SNMP Config screen, select Gen.
SNMP Config:
Com Use:
Gen
Trap
Next SNMP ASCII
F3
F1
F2
F3
F1
F2
7. Press F1 (Next) until the Com IP Adr
configuration option appears.
Setting the IP Address
The IP address is the address used by the SNMP
manager to access the device. For devices 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).
NOTE
Steps 8 and 9 describe the
process for entering the Com IP
address. This process applies to
any IP address.
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 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 either port.
8. Press F2 (Edit) to edit the IP address. You have the
option of using F3 (Clear) to reset the IP address
to the factory default 000.000.000.000.
Com IP Adr:
Next Edit
To assign an IP address to the COM port,
Clear
1. From the top-level menu screen, select Cnfig.
F3
F1
F2
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
9. Use the
and
keys to position the cursor
under the digit you want to change. Press F1 (Up)
to increment the digit or F2 (Down) to decrement
the digit. In this example, you would press
once to place the cursor under the middle digit in
the first digit field, then press F1 (Up) once to
change the 0 to a 1. Continue in this manner to
change the other digits.
3. Select Edit.
4. From the Edit screen, press the
key until the
SNMP selection appears on the screen.
5. Select SNMP.
000.000.000.000
Edit:
Up
Down Save
User Alarm SNMP
F3
F1
F2
F3
F1
F2
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3-15
ACCULINK 336x E1 NTU
10. When you are through changing the IP address,
you must press F3 (Save) to save the value.
Otherwise, the original value will be retained.
To select the link layer protocol,
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
010.155.111.222
Up
Down Save
Function key. Use the scroll keys, if necessary.
F3
F1
F2
3. Select Edit.
4. From the Edit screen, press the
key until the
SNMP selection appears on the screen.
Selecting the Link Layer Protocol
5. Select SNMP.
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). PPP can be used for synchronous or
asynchronous operation. SLIP can be used for
Edit:
User Alarm SNMP
asynchronous operation only.
F3
F1
F2
The E1 NTU implementation of PPP supports the
following:
6. From the SNMP Config screen, select Gen.
•
•
•
Full negotiation of PPP’s Link Control Protocol
(LCP).
Active negotiation of LCP when the connection is
established.
SNMP Config:
Gen
Trap
Maximum Request Unit (MRU) sizes up to
1500 bytes, but the E1 NTU will attempt to
negotiate down to 500 bytes.
F3
F1
F2
•
The E1 NTU provides a unique LCP magic number
derived from the unit serial number and the elapsed
time.
7. Press F1 (Next) until the Com Link configuration
option appears.
•
Full negotiation of escape characters.
8. Press F2 (PPP) or F3 (SLIP).
The E1 NTU implementation of PPP does not support
Link Quality Reports (LQR), compression, encryption,
Password Authentication Protocol (PAP) or Challenge
Authentication Protocol (CHAP).
Com Link:
Next PPP
SLIP
The E1 NTU implementation of SLIP supports a fixed
MRU size of 1006 bytes.
F3
F1
F2
Before selecting the protocol, you must first select the
port to be used as the communications link. Refer to the
assumes that the COM port is being used as the
communications link.
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December 1996
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Operation
8. Press F2 (Edit) to edit the community name. The
Specifying the Community Name(s) and
Access Type(s)
factory default community name is public.
You have the capability of specifying up to two
community names (community name 1 and community
name 2) to be used by external SNMP managers when
trying to access objects in the E1 NTU’s MIB. Once you
specify the community name(s), you must then specify the
type of access to the MIB that SNMP managers in the
community are permitted to have.
CommunityName1:
Next Edit
Clear
F3
F1
F2
To specify the community name 1 and its access type,
1. From the top-level menu screen, select Cnfig.
NOTE
Steps 9 and 10 describe the
process for entering text strings
for SNMP configuration options.
This process applies to entering
any text strings into SNMP
configuration options.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
3. Select Edit.
4. From the Edit screen, press the
key until the
SNMP selection appears on the screen.
9. Use the
and
keys to position the cursor
under the character you want to change. Press
F1 (Up) or F2 (Down) to scroll through the valid
numbers/characters for the text string.
5. Select SNMP.
Edit:
User Alarm SNMP
public
Up
Down Save
F3
F1
F2
F3
F1
F2
6. From the SNMP Config screen, select Gen.
The F1 (Up) key scrolls through the ASCII
character set in the following order: numbers
(0–9), lowercase letters (a–z), uppercase letters
(A–Z), space character, ASCII symbols (ascending
order, based on ASCII code), and the End of Line
symbol (←). The ← erases all characters to the
right of the cursor.
SNMP Config:
Gen
Trap
F3
F1
F2
10. When you are through changing the community
name, you must press F3 (Save) to save the value.
Otherwise, the original value will be retained.
7. Press F1 (Next) until the CommunityName1
configuration option appears.
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3-17
ACCULINK 336x E1 NTU
11. Press F1 (Next) until the Access 1 configuration
option appears.
Enabling SNMP Trap Messages
To enable SNMP trap messages from this device,
12. Press F2 (Read) or F3 (R/W).
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Access 1:
Next Read R/W
Function key. Use the scroll keys, if necessary.
F3
F1
F2
3. Select Edit.
4. From the Edit screen, press the
key until the
The Read selection allows read-only access
(SNMP “Get”) to the accessible objects in the
MIB when community name 1 is used. The R/W
selection allows Read/Write access (SNMP “Get”
and “Set”) to the objects in the MIB. Write access
is allowed for all objects specified as read/write in
the MIB. Read access is allowed for all objects
specified as read-only or read/write.
Alarm selection appears on the screen.
5. Select Alarm.
Edit:
User Alarm SNMP
F3
F1
F2
Configuring SNMP Traps
A trap is an unsolicited message that is sent from the
E1 NTU to an SNMP manager when the device detects
certain, pre-specified conditions. These traps enable the
SNMP manager to monitor the state of the network.
6. Press F1 (Next) until the SNMP Trap
configuration option appears.
7. Press F2 (Enab) to enable trap messages over the
SNMP management link.
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 device, an IP address for
each SNMP manager specified, and the type of traps to be
sent from this device. For more information, refer to
section in Chapter 4, Maintenance.
SNMP Trap:
Next Enab
Disab
F3
F1
F2
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Operation
Selecting the Number of Trap Managers
Configuring a Destination for SNMP Traps
If you intend to issue traps to an SNMP manager(s)
from this device, you must specify the number of SNMP
managers that are to receive the traps.
A destination must be configured for each SNMP trap
manager specified. This configuration option is displayed
for the number of trap managers specified by the Number
of Trap Managers configuration option.
To specify the number of SNMP managers to receive
traps from this device,
To configure an IP address for the SNMP trap
manager,
1. From the top-level menu screen, select Cnfig.
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
Function key. Use the scroll keys, if necessary.
3. Select Edit.
3. Select Edit.
4. From the Edit screen, press the
key until the
SNMP selection appears on the screen.
4. From the Edit screen, press the
key until the
SNMP selection appears on the screen.
5. Select SNMP.
5. Select SNMP.
Edit:
User Alarm SNMP
Edit:
User Alarm SNMP
F3
F1
F2
F3
F1
F2
6. From the SNMP Config screen, select Trap.
6. From the SNMP Config screen, select Trap.
SNMP Config:
Gen
Trap
SNMP Config:
Gen
Trap
F3
F1
F2
F3
F1
F2
7. Select the number of SNMP managers to receive
traps (from 1 through 6) by using the appropriate
Function key. Use the scroll keys, if necessary.
7. Press F1 (Next) until the Trapn IP Address
configuration option appears.
8. Press F2 (Edit) to edit the IP address. You have the
option of using F3 (Clear) to reset the IP address
to the factory default 000.000.000.000. Refer to
more information on setting an IP address.
Num Trap Mgrs:1
Next
1
2
F3
F1
F2
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3-19
ACCULINK 336x E1 NTU
9. Press F1 (Next) until the Trapn Destination
configuration appears, and select the destination
for the SNMP trap by using the appropriate
Function key. Use the scroll keys, if necessary.
NOTE
If TS16 is reserved for CCS, D16
will automatically be assigned to
N16, and the G.703 DTE DS0
channels allocated to the network
must be directly connected to the
corresponding channel (e.g., D1
to N1, D2 to N2, etc.).
Trapn Dst:
Next None Com
F3
F1
F2
To allocate DS0 channels, begin by defining the logical
channel configuration for the network interface, and then
the G.703 DTE interface, and then any ports, if desired.
diagrams of channel configurations.
Configuring DS0 Channels
The E1 NTU provides channel configuration options
that allow you to do the following:
NOTE
•
•
•
•
Display the DS0 assignments for the network,
G.703 DTE, and data port interfaces.
With the exception of time-slot 16,
a CAS allocation example is the
same as the example in Figures
3-8 and 3-9. TS16, however, is
directly connected when using
CAS (D16 to N16).
Allocate DS0 channels on the G.703 DTE interface
to the network interface.
Allocate DS0 channels on the network or G.703
DTE interface to particular data ports.
Specify whether time-slot 16 (TS16) is available for
data or reserved for signaling information using
Common-Channel Signaling (CSS) or
Blank configuration worksheets are provided at the
the configuration worksheets for DS0 channel allocation:
Channel-Associated Signaling (CAS).
1. Complete the Network Interface and the G.703
DTE Interface tables (unless the G.703 DTE
interface is disabled) as shown in the examples in
NOTE
CCS is typically used in a 2-frame
multiframe system, whereas CAS
is used in a 16-frame system.
2. Using the worksheets shown in Figures 3-10
and 3-11, circle the configuration options needed
to implement the logical channel configuration.
•
•
Clear (deallocate) all DS0 channels from the
network, G.703 DTE, or data port interface.
Once you have completed the worksheets, enter this
Map data from one port to another.
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3360-A2-GB20-20
Operation
G.703 DTE INTERFACE
D1
D2
NETWORK INTERFACE
D3
(N1-D1, N2-D2, ETC.)
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
D25
D26
D27
D28
D29
D30
D31
N8
N9
N10
N11
N12
N13
N14
N15
N16
N17
N18
N19
N20
N21
N22
N23
N24
N25
N26
N27
N28
N29
N30
N31
AUTOMATIC ALLOCATION
PORTS
PRT 1
PRT 2
PRT 3
PRT 4
496-14880
Figure 3-6. Example of Channel Allocation with TS16 Reserved for Common-Channel Signaling
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ACCULINK 336x E1 NTU
Network Interface
Network Channel Allocation
G.703 DTE Interface
G.703 Channel Allocation
N1
N2
N3
N4
N5
N6
N7
N8
N9
D1
D2
D3
D4
D5
D1
N1
N2
N3
N4
N5
D2
D3
D4
D5
D6
D7
D8
D9
N10
N11
D10
D11
D12
D13
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
Allocations
N10
N11
N12
N13
N12
N13
N14
N15
N16
N17
N18
N19
N20
N21
N22
N23
N24
N25
N26
N27
N28
N29
N30
N31
Allocations
D16
N16
Prt1
Prt1
Prt3
Prt2
Prt2
Prt2
Prt2
Prt2
Prt2
Prt3
D1 – D31 indicates allocation to DTE
(G.703) channels.
N1 – N31 indicates allocation to network
channels.
Prt1 – Prt4 indicates allocation to
synchronous data ports.
Figure 3-7. Example of Interface Worksheet with TS16 Reserved for Common Channel Signaling
3-22
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Operation
G.703 DTE 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
D25
D26
D27
D28
D29
D30
D31
N8
N9
N10
N11
N12
N13
N14
N15
N16
N17
N18
N19
N20
N21
N22
N23
N24
N25
N26
N27
N28
N29
N30
N31
PORTS
PRT 1
PRT 2
PRT 3
PRT 4
496-14879
Figure 3-8. Example of Channel Allocation with TS16 Available for Data
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December 1996
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ACCULINK 336x E1 NTU
Network Interface
Network Channel Allocation
G.703 DTE Interface
G.703 Channel Allocation
N1
N2
N3
N4
N5
N6
N7
N8
N9
D1
D2
D3
D4
D1
N1
N2
N3
N4
N6
D2
D3
D4
D5
D5
D6
D7
D8
D9
N10
N11
D10
D11
D12
D13
D16
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
Allocations
N10
N11
N12
N13
N12
N13
N14
N15
N16
N17
N18
N19
N20
N21
N22
N23
N24
N25
N26
N27
N28
N29
N30
N31
Allocations
Prt1
N14
Prt1
Prt1
Prt3
Prt2
Prt2
Prt2
Prt2
Prt2
Prt2
Prt3
D1 – D31 indicates allocation to DTE
(G.703) channels.
N1 – N31 indicates allocation to network
channels.
Prt1 – Prt4 indicates allocation to
synchronous data ports.
Figure 3-9. Example of Interface Worksheet with TS16 Available for Data
3-24
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Operation
Port Chan
Conf
Options
Value
Assign To
Assign By
NET, DTE, Prt2, Prt3, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 1
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Assign To
Assign By
NET, DTE, Prt1, Prt3, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 2
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Figure 3-10. Port Channel Configuration Worksheet (Ports 1 and 2)
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ACCULINK 336x E1 NTU
Port Chan
Conf
Options
Value
Assign To
Assign By
NET, DTE, Prt1, Prt2, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 3
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Assign To
Assign By
NET, DTE, Prt1, Prt2, Prt3
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 4
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Figure 3-11. Port Channel Configuration Worksheet (Ports 3 and 4)
3-26
December 1996
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Operation
3. Select Edit.
NOTE
4. From the Edit screen, press the
key until the
The following procedures are
examples only. Screen displays
may vary depending on the
model and configuration of the
E1 NTU.
Chan selection appears on the screen.
5. Select Chan.
Edit:
Port
NET
Chan
Displaying DS0 Channel Assignments
F3
F1
F2
Use the Display command (in the Channel
Configuration branch) to view how the DS0 channels are
currently allocated.
6. From the Channel Config screen, select Dsply
(display).
Line 1 of the display shows the 31 channels of the
selected interface. Pressing the
or
key scrolls the
channels onto the screen in groups of three. Line 2
displays what is allocated to the DS0 channel listed in
Line 1. Symbols used in the display are shown in
Channel Config:
Dsply Clear DTE
F3
F1
F2
Table 3-5
Display Channel Symbols
7. From the Display Chan screen, select NET to
display the channels allocated to the network
interface.
Symbol
Meaning
–
The DS0 channel is not allocated.
Prtn
The DS0 channel is allocated to Port n,
where n is 1, 2, 3, or 4.
Display Chan:
NET
DTE
Ports
Nn
The DS0 channel is allocated to the
network interface DS0 channel n, where
n can be any number from 1 through 31.
F3
F1
F2
Dn
The DS0 channel is allocated to the
G.703 DTE interface DS0 channel n,
where n can be any number from 1
through 31.
Or, select DTE to display the channels allocated to
the G.703 DTE interface.
Display Chan:
NET
DTE
Ports
To display the DS0 channel allocation,
F3
F1
F2
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
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3-27
ACCULINK 336x E1 NTU
8. If you selected NET the channels allocated to the
network interface are displayed. Line 1 displays
the 31 channels for the network interface, while
Line 2 displays what is allocated to the DS0
Once a port is selected, you have access to the
configuration options to complete the port allocation
procedure. These configuration options enable you to,
•
•
•
Assign the selected port to the desired interface
Select the desired method for channel allocation
channel shown in Line 1. Pressing the
or
key scrolls the channels onto the screen in groups
of three.
Select the port rate and starting channel (if the
allocation method is block)
N1
D2
N2
D3
N3
Prt1
•
Select the specific channels (if the allocation
method is by individual channel)
F3
F1
F2
These configuration options are explained in detail in
To select the data port,
If you selected DTE, the channels allocated to the
G.703 DTE interface are displayed. Line 1
displays the 31 channels for the G.703 DTE
interface, while Line 2 displays what is allocated
to the DS0 channel shown in Line 1.
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
D1
–
D2
N1
D3
N2
3. Select Edit.
4. From the Edit screen, press the
key until the
Chan selection appears on the screen.
F3
F1
F2
5. Select Chan.
Allocating Data Ports
Edit:DTE
By using the configuration options, assign a specific
port to DS0 channels on either the network interface or
the G.703 DTE interface. The following methods are
available to assign DS0 channels to the port:
Port
NET
Chan
F3
F1
F2
Block – 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. Only those initial DS0 channel numbers
that provide enough bandwidth (based on the port’s data
rate) are displayed on the screen. These channels are
automatically assigned to the destination E1 interface
(HDSL or G.703 DTE) when the initial DS0 channel is
selected.
6. From the Channel Config screen, press the
key to scroll the ports onto the screen.
Channel Config:
Dsply Clear DTE
F3
F1
F2
Chan – 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.
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December 1996
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Operation
7. Select the desired port by pressing its
corresponding Function key.
2. Press F1 (Next) to display the next configuration
option (Port Rate).
3. Use the
or
key to scroll the desired port
Channel Config:
rate onto the screen. Rates scroll in groups of
three. Available selections depend on the current
base rate selected for the port. Press the
corresponding Function key to select the port rate.
Then, select Next to display the Start At
configuration option on the screen.
Prt1
Prt2
Prt3
F3
F1
F2
8. The configuration option for the data port channel
allocation destination appears on the screen. Select
NET to assign this port to the network interface,
select DTE to assign this port to the G.703 DTE
Port Rate:384
Next
64
128
interface, or press the
key and the appropriate
F3
F1
F2
Function key to assign this port to another port.
Assign To:NET
4. The Start At screen displays the configuration
option used to select the starting DS0 channel. If
the destination selected is the network interface,
then the network channels appear on the screen. If
the destination selected is the G.703 DTE
interface, then these channels appear on the
screen.
Next
NET
DTE
F3
F1
F2
9. Press F1 (Next) to display the appropriate
configuration options on the screen. Use one of
the following examples, depending on whether
you are assigning by block or individual channel.
The following screen shows an example for the
network interface. Use the
or
key to
scroll the desired channel onto the screen. Use the
Function keys to select the starting channel. Only
those DS0 channel numbers that provide enough
bandwidth (based on the configured data rate) to
be used as a starting channel number are
Block Channel Assignment Method
The Assign By configuration option screen appears
after you select a port.
displayed. Channel allocation for this port can
only be cleared by selecting Clear.
To assign by the block method,
1. Press F2 (Block).
Start At:Clear
Next
Clear N1
F3
F1
F2
Assign By:
Next
Block Chan
F3
F1
F2
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3-29
ACCULINK 336x E1 NTU
Individual Channel Assignment Method
Allocating DS0 Channels from the G.703
DTE Interface to the Network Interface
The Assign By configuration option screen appears
after you select a port.
By using the configuration options, you can allocate
DS0 channels from the G.703 DTE interface to the
network interface and specify whether time-slot 16 (TS16)
is reserved for signaling information.
To assign by the individual channel method,
1. Press F3 (Chan).
To allocate DS0 channels from the G.703 DTE
interface to the network interface,
Assign By:
Next
Block Chan
1. From the top-level menu screen, select Cnfig.
F3
F2
F1
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
2. Press F1 (Next) to display the next configuration
option (channel allocation).
3. Select Edit.
4. From the Edit screen, press the
key until the
3. Line 1 displays the 31 channels for the network
interface or the G.703 DTE interface, depending
on which destination was chosen. This example
assumes that the network is the destination. Line 2
displays what is allocated to the DS0 channel
Chan selection appears on the screen.
5. Select Chan.
shown in Line 1. Pressing the
or
key
Edit:
Port
scrolls the channels onto the screen in groups of
three. Select the channel by pressing the Function
key under the desired number. Portn appears. The
port is assigned to that channel. To deallocate a
port, press the Function key under that port
number. Pressing the Function key under channels
assigned to other ports has no effect.
NET
Chan
F3
F1
F2
6. From the Channel Config screen, select DTE.
N1
Prt1
N2
Prt2
Channel Config:
Dsply Clear DTE
Next
F3
F1
F2
F3
F1
F2
NOTE
N16 will not appear if time-slot 16
(TS16) is reserved for signaling.
(The default is TS16 available for
data.)
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3360-A2-GB20-20
Operation
7. From the DTE Channels screen, select TS16.
10. From the DTE Channels screen, select Assign.
DTE Channels:
TS16 Assign
DTE Channels:
TS16 Assign
F3
F3
F1
F2
F1
F2
8. Pressing F2 (Rsvd) reserves time-slot 16 for
Common-Channel Signaling (CSS). Pressing F3
(CAS) selects Channel-Associated Signaling. Data
is the default for TS16.
11. Press the Function key below the network channel
desired. Each time that you press the Function key,
the DTE channel number will scroll up one
number. If the network channel is currently
unassigned (‘‘–” is displayed on Line 2), the DTE
channel number initially displays the same number
as the corresponding network channel number.
However, if the network channel is currently
assigned, the DTE channel number is shown as
Dn. Pressing the Function key for D31 wraps the
display back to D1. Only those channels that are
not already assigned will appear on the LCD when
scrolling. The network channels assigned to ports
(Prt1...Prt4) are unavailable for assignment.
TS16:Data
Data
Rsvd CAS
F3
F1
F2
NOTE
If TS16 is reserved for CSS by
selecting Rsvd, D16 will be
assigned to N16, and the G.703
DTE DS0 channels allocated to
the network must be directly
connected to the corresponding
channel (e.g., D1 to N1, D2 to N2,
etc.).
N1
D1
N2
D2
N3
–
F3
F1
F2
9. From the TS16 screen, press the
to the DTE Channels screen.
key to return
TS16:Data
Data
Rsvd CAS
F3
F1
F2
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3-31
ACCULINK 336x E1 NTU
6. From the Channel Config screen, select Clear.
Clearing DS0 Channel Allocation
You can clear (deallocate) all the DS0 channels
currently allocated to either the network interface, the
G.703 DTE interface, or the synchronous data ports.
Channel Config:
Dsply Clear DTE
To clear DS0 channel allocation,
F3
F1
F2
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
7. From the Clear Channel screen, select NET to
clear all DS0 channels assigned to the network
interface. Or, select DTE to clear all DS0 channels
assigned to the G.703 DTE interface. Or, select a
port to clear all assignments for that data port.
Function key. Use the scroll keys, if necessary.
3. Select Edit.
4. From the Edit screen, press the
key until the
Chan selection appears on the screen.
Clear Channel:
NET
DTE
Port1
5. Select Chan.
F3
F1
F2
Edit:
Port
NET
Chan
F3
F1
F2
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3360-A2-GB20-20
Operation
The clock source configuration options enable you to
select either the network interface, a synchronous data
port, the internal clock, the G.703 DTE interface, or an
external clock. If external clocking is selected, you must
use the clock rate configuration option to specify the clock
configurations. Two sample procedures for configuring
more information on configuration options, refer to
Selecting the Timing Source
The E1 NTU provides the ability to select a primary
clock (timing) source that is used to synchronize all of the
E1 and data port interfaces on the E1 NTU. The clock for
each interface is at the appropriate rate for that interface
(e.g., 2.048 Mbps for the E1 interfaces, the configured
port rate for the data ports), and it is independent of the
primary clock rate. This means that the primary clock rate
and the E1 NTU interface rates may be different.
The E1 NTU automatically falls back to the secondary
clock when a failure of the selected primary clock is
detected. If a secondary clock failure is detected, the E1
NTU falls back to its internal clock.
NOTE
External clock and secondary
clock sources are only available
for 2-port and 4-port E1 NTUs.
NETWORK
CLOCK: NETWORK
CLOCK: NETWORK
CLOCK: INTERNAL
CLOCK: NETWORK
CLOCK: EXTERNAL
CLOCK: NETWORK
CLOCK: NETWORK
PBX
CLOCK: DTE (G.703) CONNECTOR
TERMINAL
EQUIPMENT
CLOCK: PORT 1, 2, 3, OR 4
CLOCK: NETWORK
496-14341-03
Figure 3-12. Common Clocking Configurations
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3-33
ACCULINK 336x E1 NTU
Configuring for Network Timing
Configuring for External Timing
To configure for network timing,
To configure 2-port and 4-port E1 NTUs for external
timing,
1. From the top-level menu screen, select Cnfig.
1. From the top-level menu screen, select Cnfig.
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
2. Select the configuration option set to be copied
into the Edit area by using the appropriate
Function key. Use the scroll keys, if necessary.
Function key. Use the scroll keys, if necessary.
3. Select Edit.
3. Select Edit.
4. From the Edit screen, press the
key until the
Gen selection appears on the screen.
4. From the Edit screen, press the
key until the
Gen selection appears on the screen.
5. Select Gen.
5. Select Gen.
Edit:
NET
Chan Gen
Edit:
NET
Chan Gen
F3
F1
F2
F3
F1
F2
6. Select the primary clock source. For network,
press F2 (note that network is also the default).
6. Select the primary clock source. For external,
press the
key until the Ext selection appears
on the screen.
Pri Clk Src:NET
Next
NET
DTE
Pri Clk Src:NET
Next
NET
DTE
F3
F1
F2
F3
F1
F2
NOTE
7. Select Ext (external timing).
The procedure for configuring the
secondary clock source is similar
to the example shown above. For
more information on configuration
Pri Clk Src:NET
Prtn
Int
Ext
F3
F1
F2
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3360-A2-GB20-20
Operation
8. Select the appropriate external clock rate by
pressing the corresponding Function key. This step
is mandatory if you have chosen external clocking.
The inactive interface displays the following message
when a Function key is pressed or a connection is made
on the inactive user interface and control cannot be
switched because the currently active interface is in use.
On the screen, either Ft. Panel (front panel) or COM Port
is displayed in the user interface (User I/F) field.
Clock Rate:2048
Next
2048
8
E1 HDSL NTU
User I/F active
F3
F1
F2
F3
F1
F2
Acquiring/Releasing
the User Interface
You can access the user interface from either the front
panel or the COM port. The E1 NTU allows only one user
interface to be active at a time. The front panel is the
default user interface at power-up or after a reset. It is also
the default during a software download or when a failure
occurs at either the local or remote PC interface.
The inactive interface displays the following message
after control has been released from the previously active
interface and another interface has not become active.
E1 HDSL NTU
User I/F idle
F3
F1
F2
You can switch an inactive user interface to active if,
•
•
The current active user interface has had no activity
(no key was pressed) for at least five minutes,
and/or
Releasing the Active User Interface
To release the current active user interface, either allow
five minutes to elapse without pressing any key or use the
Release command.
The active user interface has been released with the
Release command.
To use the Release command,
Acquiring the Active User Interface
1. From the top-level menu screen, press the
until the Ctrl selection appears on the screen.
key
To acquire the active user interface, press any key. If
you are using the PC interface, use the mouse to click on
the desired Function key.
The top-level menu screen appears on the active user
interface, regardless of what screen was displayed at the
previous active user interface.
E1 HDSL NTU
Stat
Test
Cnfig
F3
F1
F2
E1 HDSL NTU
Stat
Test
Cnfig
2. Select Ctrl.
F3
F1
F2
E1 HDSL NTU
Test Cnfig Ctrl
F3
F1
F2
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3-35
ACCULINK 336x E1 NTU
3. From the Control screen, select Rel (Release).
3. From the Control screen, press the
key until
the Reset selection appears on the screen.
Control:
Rel
LED ClrReg
Control:
Rel
LED ClrReg
F3
F1
F2
F3
F1
F2
The active user interface is released. A screen with
this message appears. No user interface is active
until input is received from a user interface.
4. Select Reset.
Control:
ClrReg Reset
Ft. Panel:
Released
F3
F1
F2
F3
F1
F2
5. From the Device Reset screen, press F1 to initiate
a reset of the E1 NTU (the power-up sequence
screen appears). Press F2 instead to return to the
Control screen without initiating a reset.
Resetting the E1 NTU
Use the Reset command to perform a power-on reset of
the E1 NTU.
Device Reset:
To reset the E1 NTU,
Yes
No
1. From the top-level menu screen, press the
until the Ctrl selection appears on the screen.
key
F3
F1
F2
E1 HDSL NTU
Stat
Test
Cnfig
Download Operations
F3
F1
F2
NOTE
The Download command is for
use by service personnel only.
Loss of primary data could result
from improper use.
2. Select Ctrl.
E1 HDSL NTU
Test Cnfig Ctrl
F3
F1
F2
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3360-A2-GB20-20
Operation
E1 NTU User Interface
Access Security
The E1 NTU User Interface Access Security section of
this document is not available for viewing online due to
its security-sensitive contents.
To order this manual, please contact your sales or
service representative.
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3-37
Maintenance
4
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Self-Test Health . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
Device Health and Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
HDSL Loop Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
Performance Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10
SNMP Traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-11
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-12
Test Jacks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14
Test Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
Remote Loopback Tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
Local Loopback Tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16
Starting a Line Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17
Starting a Payload Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17
Starting a DTE Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-18
Starting a Repeater Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-18
Starting a Data Channel Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-19
Starting a Data Terminal Loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-20
Aborting Loopbacks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-20
Test Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-21
Sending Test Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-21
Monitoring Test Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-23
Aborting Test Patterns . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-23
Lamp Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-24
Starting a Lamp Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-24
Aborting a Lamp Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-25
Displaying E1 NTU Test Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-25
Overview
NOTE
The E1 NTU can detect and report faults, and perform
diagnostic tests. These features ensure that your E1 NTU
is giving you optimum performance in your network.
The following procedures are
examples only. Screen displays
may vary depending on the
configuration of the E1 NTU.
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4-1
ACCULINK 336x E1 NTU
2. From the Status screen, select STest.
Self-Test Health
Use the Self-Test Health command to display the
results of the power-up self-test. Possible messages are
information about power-up self-test.
Status:
HDSL DevHS STest
F3
F1
F2
To display power-up self-test results,
1. From the top-level menu screen, select Stat.
3. View the results of the last power-up self-test. If
no problems were found during power-up, the
following message appears.
E1 HDSL NTU
Stat
Test
Cnfig
SelfTst Health:
Passed
F3
F1
F2
F3
F1
F2
Table 4-1
Self-Test Health Messages
Message
Description
Passed
No problems were found during power-up.
CPU fail
The central processing unit failed internal testing.
Device fail
HDSL fail
One or more of the unit’s integrated circuit chips failed to pass internal device level testing.
The unit failed to successfully test an internal HDSL subassembly.
The unit failed to encode data properly or to detect Loss Of Signal.
The unit failed to transmit AIS or to detect an RAI alarm.
The unit failed program checksum verification.
HDB3/LOS fail
Alarm fail
Memory fail
LCD fail
The front panel liquid crystal display (LCD) failed.
NET Lp1 fail*
NET Lp2 fail*
NET E1 fail
DTE E1 fail
DSU fail
The unit failed to internally loop data on the network loop 1 circuit.
The unit failed to internally loop data on the network loop 2 circuit.
The unit failed to internally loop data on the network E1 circuit.
The unit failed to internally loop data on the DTE E1 circuit.
The unit failed to internally loop data on the DSU.
DSU Portn fail
Port’s integrated circuitry failed to pass device internal testing.
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.
* Not available on all units.
4-2
December 1996
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Maintenance
Alarm/status messages appear on Line 2 of the
Device Health and Status
Use the Device Health and Status branch to view the
current health and status messages for the E1 NTU.
LCD in priority order (highest to lowest). The E1
NTU is polled for current status every ten seconds.
If the status has changed from the last poll, the
Health and Status screen is updated and the
highest priority message is displayed.
To display device health and status,
3. Use the scroll keys, if necessary, to scroll
additional device health and status messages onto
the LCD.
1. From the top-level menu screen, select Stat.
E1 HDSL NTU
Stat
Test
Cnfig
Device H/S:
LOS on Loop1
F3
F1
F2
F3
F1
F2
2. From the Status screen, select DevHS.
The Auto Device Health and Status screen appears
when there is no activity (no keys pressed) on the
active physical interface for five minutes. Only the
highest priority message appears on Line 2 of the
LCD.
Status:
HDSL DevHS STest
F3
F1
F2
Table 4-2
(1 of 2)
Health and Status Messages
Message
Description
LOS on Loop1
A Loss Of Signal condition (6 consecutive synchronization word mismatches) has been detected
on loop 1 of the network interface. The condition is cleared when a signal match occurs.
LOS on Loop2
LOS at DTE
OOF at Net
A Loss Of Signal condition has been detected on loop 2 of the network interface. The condition is
cleared when a signal match occurs.
A Loss Of Signal condition (175 consecutive zeros) has been detected on the G.703 DTE interface.
The condition is cleared when the density of ones to zeros received is 12.5%.
An Out Of Frame condition (3 consecutive errored frame alignment events or, in CRC4 mode, a
lack of multiframe alignment) has been detected on the network interface. The condition is cleared
when a reframe occurs.
OOF at DTE
An Out Of Frame condition has been detected on the G.703 DTE interface. The condition is
cleared when a reframe occurs.
AIS at Net
AIS at DTE
EER at Net
An Alarm Indication Signal (unframed all ones signal) is being received by the network interface.
An Alarm Indication Signal is being received by the G.703 DTE interface.
An Excessive Error Rate condition has been detected on the network interface (the bit error rate
-3
is 10 or greater for 4 to 5 seconds). The condition is cleared when the error rate falls below the
-4
threshold value (10 ) for 5 seconds.
3360-A2-GB20-20
December 1996
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ACCULINK 336x E1 NTU
Table 4-2
(2 of 2)
Health and Status Messages
Message
Description
EER at DTE
An Excessive Error Rate condition has been detected on the G.703 DTE interface. The condition is
cleared when the error rate falls below the threshold value (10 ) for 5 seconds.
-4
RAI at Net
RAI at DTE
MFA at Net
A Remote Alarm Indication is being received by the network interface.
A Remote Alarm Indication is being received by the G.703 DTE interface.
A Multiframe Alarm condition (2 consecutive errored multiframe alignment signals, or two
consecutive multiframes with all zeros in time-slot 16) has been detected on the network interface.
The condition is cleared when realignment (or time-slot 16 correction) occurs.
MFA at DTE
A Multiframe Alarm condition has been detected on the G.703 DTE interface. The condition is
cleared when realignment (or time-slot 16 correction) occurs.
RMA at Net
A Remote Multiframe Alarm signal is being received by the network interface.
RMA at DTE
Primary Clk fail
Second Clk fail
OOF at Prtn
A Remote Multiframe Alarm signal is being received by the G.703 DTE interface.
The primary clock has failed. Timing for the E1 NTU is provided by the secondary clock.
The primary clock and the secondary clock have failed. Timing is provided by the internal clock.
An Out Of Frame has been detected on data port Prtn (where n is the port number). This condition
only occurs if the synchronous data port’s Embedded Data Link (EDL) is enabled (only available for
2-port and 4-port E1 NTUs).
EER at Prtn
The error rate of the received signal has exceeded the configured threshold for data port Prtn
(where n is the port number). This condition only occurs if the synchronous data port’s Embedded
Data Link (EDL) is enabled (only available for 2-port and 4-port E1 NTUs). The condition is cleared
when the error rate falls below the synchronous data port’s configured threshold value.
PORT SNMP Down The SNMP management link is in a down state for PORT (where PORT is COM or AUX). This
condition occurs if the PORT is configured for SNMP, and communication between the
management system and the E1 NTU is not currently possible for this port. For the AUX port, this
condition is detected only when a device reset or power-up occurs.
Selftest failed
A failure was detected during the power-on self-test. Select STest (in the Stat branch) to display
more information about the failure.
DevFail xxxxxxxx
Download failed
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.
A download attempt was interrupted and failed to complete. The condition is cleared by resetting
the device.
Test in progress
Lp1/Lp2 Reversed
NTU Operational
A test is currently active. Select Tstat (in the Stat branch) to display more test information.
The loop 1 and loop 2 connections on the HDSL network are reversed.
This message only appears if the unit is configured as an NTU and there are no valid alarm or
status messages.
LTU Operational
This message only appears if the unit is configured as an LTU and there are no valid alarm or
status messages.
4-4
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Maintenance
HDSL messages appear on Line 2 of the LCD.
HDSL Loop Performance
Use the HDSL Loop Performance branch to view the
signal quality and loop loss messages for each loop on the
The E1 NTU is polled for current status every ten
seconds. If the status has changed from the last
poll, the HDSL screen is updated.
3. Use the scroll keys, to scroll additional HDSL
messages onto the LCD.
To display HDSL loop performance,
1. From the top-level menu screen, select Stat.
HDSL:
Lp1 SigQ=xx
E1 HDSL NTU
Stat
Test
Cnfig
F3
F1
F2
F3
F1
F2
2. From the Status screen, select HDSL.
Status:
HDSL DevHS STest
F3
F1
F2
Table 4-3
HDSL Loop Performance Messages
Message
Description
Lp1 SigQ=xx
The loop 1 signal quality value (xx) is 0 to 10. A value of 10 indicates the noise margin is 9 dB or
more above the margin needed to produce a bit error rate of approximately 10 . The values of 2 to
-7
9 indicate noise margins of 1 to 8 dB above this margin. A value of 1 indicates the noise margin is
-7
less than or equal to the margin needed to produce a bit error rate of approximately 10 . A value of
0 indicates the loop is out of synchronization or the noise margin is unavailable.
Lp2 SigQ=xx
Lp1 Loss=xx
The loop 2 signal quality value (xx) is 0 to 10. (See the Lp1 SigQ description above.)
The loop 1 loss value (xx) is 0 to 40. The value indicates an approximation (+/– 2 dB) of the loss
that the E1 NTU detects at the interface to loop 1. Due to bridge taps on the loop, this value could
be different at each end of the loop. (Values above 40 are invalid.)
Lp2 Loss=xx
The loop 2 loss value (xx) is 0 to 40. (See the Lp1 Loss description above.)
3360-A2-GB20-20
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ACCULINK 336x E1 NTU
2. From the Status screen, press the
Perf selection appears on the screen.
key until the
Performance Reports
Network performance is continuously monitored and
maintained in network registers (NET), in G.703 DTE
registers (DTE) and, if configured to do so, in far-end and
near-end port registers (Prtn, where n is 1, 2, 3, or 4).
Registers shown on the front panel LCD are listed in
3. From the Status screen, select Perf.
Status:
DevHS STest Perf
NET and DTE registers are status registers that collect
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.
F3
F1
F2
4. Select NET registers.
Performance:
NET
DTE
Prt1
For 2-port and 4-port E1 NTUs, port performance is
continuously monitored and maintained in memory
registers when the port is configured to use EDL. The
E1 NTU 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.
F3
F1
F2
5. From the NET Registers screen, select E1 to view
the registers that apply to the E1 (G.704) network
interface. Select Lp1 or Lp2 to view the HDSL
loop 1 or loop 2 network interface registers. (In
the following example, E1 is selected.)
NET Registers:
E1
Lp1
Lp2
F3
F1
F2
NOTE
The following procedure is an
example only. Screen displays
may vary depending on the
model and configuration of the
E1 NTU. The procedure for
displaying DTE and port registers
is similar to this example.
6. From the E1 Registers screen, press F1 to view
E1 Registers:
Cur
24Tot Intvl
To display network (NET) performance,
F3
F1
F2
1. From the top-level menu screen, select Stat.
E1 HDSL NTU
Stat
Test
Cnfig
F3
F1
F2
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3360-A2-GB20-20
Maintenance
7. When you press F1 from the E1 Registers screen,
the E1 registers for the current 15-minute interval
appear.
You can reset the performance registers via the ClrReg
command in the Control branch of the front panel menu.
To clear the performance registers,
1. From the top-level menu screen, press the
until the Ctrl selection appears on the screen.
key
E1 Current:
Event = xx,xxx
2. Select Ctrl.
F3
F1
F2
E1 HDSL NTU
Test
Cnfig Ctrl
8. When you press F2 from the E1 Registers screen,
the E1 registers for the 24-hour total interval
appear.
F3
F1
F2
E1 24 Hour:
VldIntvl = xx
3. From the Control screen, select ClrReg.
F3
F1
F2
Control:
Rel
LED ClrReg
9. When you press F3 from the E1 Registers screen,
the interval screen appears. Use this screen to
choose the specific 15-minute interval.
F3
F1
F2
4. From the Clear Prf Regs screen, press F1 to clear
the E1 registers.
E1 Intvl: 01
Up
Down Dsply
Clear Prf Regs:
F3
F1
F2
E1
HDSL DTE
F3
F1
F2
10. Use the
and
keys to position the cursor
under the first or second digit in the interval
number displayed, then use the F1 (Up) and
F2 (Down) keys to increment/decrement the
number.
If you selected E1, the E1 performance registers
are cleared. All accumulators are reset to zero and
all status registers are cleared, and the current
interval timer, the number of valid intervals count
and the total 24-hour counts are reset to zero. The
Command Complete message then appears.
11. When you have selected the number of the interval
you want to display, press F3 (Dsply) to display
the registers for the interval selected. Use the
scroll keys to view additional register information.
E1 Intvl: xx
ES=xxx
F3
F1
F2
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4-7
ACCULINK 336x E1 NTU
Table 4-4
(1 of 2)
Performance Registers
Register
Interval Description
Totals Description
Event
Error events counter. An error event is a frame
N/A
(Not valid for
Lpn registers.)
with either a Cyclic Redundancy Check (CRC)
error or an Out Of Frame (OOF) event. The
maximum count is 65,535. This register is only
reset as a result of a Clear Performance
Register command. This register is valid for the
current interval only.
CurTimer
VldIntvl
Current interval timer. This register records the
number of seconds in the current 15-minute
interval. The maximum is 900 seconds. This
register is valid for the current interval only.
N/A
N/A
Valid interval total. 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 for the current
interval. An errored second is any second with
one or more of the following: errored frame
alignment, CRC error, Loss of Signal (LOS),
Alarm Indication Signal (AIS), or Loss of Frame
(LOF). The maximum is 900 seconds.
The total number of errored seconds for the previous
x hours, where x is 24 hours for aggregate
performance and 8 hours for port performance.
UAS
SES
The number of unavailable seconds for the
current interval. An unavailable second is any
one second interval when service is
unavailable. (Detection occurs with 10
consecutive unavailable seconds.) The
maximum is 900 seconds.
The total number of unavailable seconds for the
previous x hours, where x is 24 hours for aggregate
performance and 8 hours for port performance.
The number of severely errored seconds for the The total number of severely errored seconds for the
current interval. For E1 or DTE registers, a previous x hours, where x is 24 hours for aggregate
severely errored second is any second with 805 performance and 8 hours for port performance.
or more CRC errors, 16 or more errored frame
alignment signal events, or one or more LOS,
AIS, or OOF event. For port registers, a
severely errored second is any second with 320
or more CRC errors, or one or more OOF
event. For Lpn registers, a severely errored
second is any second with 50 or more CRC6
errors. The maximum is 900 seconds.
BES
(Not valid for
The number of bursty errored seconds for the
current interval. For E1 or DTE registers, a
The total number of bursty errored seconds for the
previous x hours, where x is 24 hours for aggregate
Lpn registers.)
bursty errored second is any second with more performance and 8 hours for port performance.
than one, but less than 805, CRC errors when
in CRC4 mode, or more than one, but less than
16, errored frame alignment signals when in
non-CRC4 mode. For port registers, a bursty
errored second is any second with more than
one, but less that 320, CRC errors. The
maximum is 900 seconds.
4-8
December 1996
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Maintenance
Table 4-4
(2 of 2)
Performance Registers
Register
Interval Description
Totals Description
LOFC
The loss of frame count for the current interval. The total loss of frame count for the previous x
(Not valid for
Lpn registers.)
This is a count of the number of times that an
LOF is declared. The maximum count is 255.
hours, where x is 24 hours for aggregate
performance and 8 hours for port performance.
StEvnt
The status events register records whether one N/A
or more of the following events have occurred
at least once during the interval. The event is
identified by a letter as follows:
(Not valid for
Lpn or port
registers.)
R – A Remote Alarm Indication has been
received on the network interface or the
G.703 DTE interface.
L – Loss Of Signal has occurred on the
network interface or the G.703 DTE
interface.
E – The Excessive Error Rate threshold has
been exceeded.
F – A Frame Synchronization Bit Error has
been detected.
V – A Bipolar Violation has been detected.
If none of these events occurred during the
interval, StEvnt=none will be displayed.
FEBE
The number of far-end block errors (reported by The total number of far-end block errors for the
(Only valid for
Lpn registers.)
remote equipment) for the current interval. The
maximum count is 900.
previous x hours, where x is 24 hours for aggregate
performance and 8 hours for port performance.
Complete
Bad line conditions or loopback tests may
prevent far-end port statistics from reaching the
E1 NTU. This field indicates whether the
15-minute interval contains 900 seconds of
statistics. If one or more seconds of far-end
statistics are missing, this field will display
Complete=No, otherwise it will display
N/A
(Only valid for
far-end port
registers.)
Complete=Yes. This field is only displayed
when Far is selected from the Prtn screen.
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ACCULINK 336x E1 NTU
•
•
Loss of Multiframe alignment condition detected
at the x Interface (where x is either Network or
DTE).
Alarms
The E1 NTU can be attached, either locally or
remotely, to an ASCII terminal or printer to display or
print alarm messages. The Communications (COM) port
can be used as the destination for Alarm Set and Alarm
Clear messages. This enables an ASCII terminal or printer
to monitor the E1 NTU for alarm conditions. Alarms can
also be displayed on a PC that is using a terminal
emulation package.
Alarm Cleared. Loss of Multiframe alignment
condition at the x Interface (where x is either
Network or DTE).
•
•
Remote Multiframe Alarm received at the x
Interface (where x is either Network or DTE).
Alarm Cleared. Remote Multiframe Alarm at
the x Interface (where x is either Network or
DTE).
Each alarm message contains a customer identification
to indicate which remote E1 NTU is reporting an alarm.
For information about customer identification, refer to the
For 2-port and 4-port E1 NTUs,
•
•
•
•
Continuous Out Of Frame condition detected at
synchronous data port n (where n is the port
number).
Possible alarm messages are as follows:
•
•
•
Continuous Loss Of Signal detected at the x
Interface (where x is either HDSL Network
Loop 1, HDSL Network Loop 2, or DTE).
Alarm Cleared. Out Of Frame condition at
synchronous data port n (where n is the port
number).
Alarm Cleared. Loss of Signal condition at the x
Interface (where x is either HDSL Network
Loop 1, HDSL Network Loop 2, or DTE).
An Excessive Error Rate has been detected at
synchronous data port n (where n is the port
number).
Continuous Out Of Frame condition detected at
the x Interface (where x is either Network or
DTE).
Alarm Cleared. An Excessive Error Rate at
synchronous data port n (where n is the port
number).
•
•
•
•
Alarm Cleared. Out of Frame condition at the x
Interface (where x is either Network or DTE).
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.)
Alarm Indication Signal received at the x
Interface (where x is either Network or DTE).
Alarm Cleared. Alarm Indication Signal at the x
Interface (where x is either Network or DTE).
Alarms remain active until the alarm condition is
cleared. Also, an alarm clear message is only sent when
there are no other alarms active.
An Excessive Error Rate has been detected at
the x Interface (where x is either Network or
DTE).
For information about alarm configuration options,
Appendix C, Configuration Options.
•
•
•
Alarm Cleared. An Excessive Error Rate at the x
Interface (where x is either Network or DTE).
Remote Alarm Indication signal received at the
x Interface (where x is either Network or DTE).
For troubleshooting information, refer to the
Alarm Cleared. Remote Alarm Indication signal
at the x Interface (where x is either Network or
DTE).
4-10
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3360-A2-GB20-20
Maintenance
SNMP Traps
Table 4-5
Enterprise-Specific Trap Definitions
A trap is an unsolicited message that is sent from the
E1 NTU to an SNMP manager when the device detects
certain, pre-specified conditions. These traps enable the
SNMP manager to monitor the state of the network.
Trap Value
Event
enterpriseClockFail(1)
The currently configured
primary clock source has
failed.
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 device, an IP address for
each SNMP manager specified, and the type of traps to be
sent from this device. For more information, refer to
enterpriseSelfTestFail(2)
A device hardware failure
is detected at self-test.
This trap is generated after
device initialization.
enterpriseDeviceFail(3)
An internal device failure is
detected by the operating
software.
Trap types consist of the following:
enterpriseSecClockFail(4)
The currently configured
secondary clock source
has failed.
•
General traps – include warmStart and
authenticationFailure. The device sends a
warmStart trap after it has been reset to indicate
that it has just reinitialized itself. The device sends
an authenticationFailure trap when it has received
an SNMP protocol message that has not been
properly authenticated. These traps are set by the
Gen Trap configuration option.
enterpriseTestStart(5)
A test is initiated.
enterpriseTestClear(105)
A test is concluded.
•
•
Enterprise Specific traps – signify that the device
has recognized an enterprise-specific event. See
are set by the Entp Trap configuration option.
Table 4-6
SNMP Trap per Interface
Interface Trap Meaning
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 set by the Link Trap
configuration option. The communications
interfaces for which these traps can be generated
are specified by the Trap I/F configuration option.
HDSL Network
Up = No alarm or test
conditions.
Down = Alarm or test
conditions.
G.703 DTE
Up = No alarm or test
conditions, and the
interface is enabled.
Down = Alarm or test
conditions, or the interface
is disabled.
Synchronous Data Ports
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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4-11
ACCULINK 336x E1 NTU
For problems other than those listed in the table, please
contact your service representative.
Troubleshooting
The E1 NTU is designed to provide you with many
you some direction if a problem occurs.
Table 4-7
(1 of 2)
Troubleshooting
Symptom
Possible Cause
Solutions
No power
1. The power module is not securely attached.
2. The wall receptacle has no power.
1. Check the power module attachment.
2. Check the wall receptacle power by plugging
in some equipment that is known to be
working.
Power-Up
Self-Test fails
The E1 NTU has detected an internal hardware
failure.
Contact your field service representative.
Message LOS on 1. Network cable problem.
Loop1 or LOS on
1. Check that the network cable is securely
attached at both ends.
Loop2 appears
2. The far-end LTU/NTU is not transmitting.
2. Check the far-end status.
3. Network problem.
3. Contact your facility provider.
Message LOS at 1. G.703 DTE cable problem.
DTE appears
1. Check that the G.703 DTE cable is securely
attached at both ends.
2. No signal being transmitted from the DTE.
2. Check the DTE status.
3. The 120 ohm interface is being used and the
RX SHIELD switch is in the EARTH position.
3. Change the RX SHIELD switch to the OPEN
position when using the 120 ohm interface.
Message OOF at 1. Incompatible framing format between the
1. Check that the framing format for the network
interface is correct.
Net appears
network and the E1 NTU.
2. Network cabling problem.
2. Check that the network cable is securely
attached at both ends.
3. Facility problem.
3. Contact your facility provider.
Message OOF at 1. Incompatible framing format between the
1. Check that the framing format for the G.703
DTE interface is correct.
DTE appears
G.703 port on the customer premises
equipment and the E1 NTU.
2. G.703 DTE cabling problem.
1. Network cable problem.
2. Check that the G.703 DTE cable is securely
attached at both ends.
Message
RAI at Net
appears
1. Check that your network cable is securely
attached at both ends.
2. Far-end LTU/NTU has detected an LOS, LOF, 2. Check the status of the far-end device.
AIS, or EER condition on the line.
3. Facility problem.
3. Contact your facility provider.
Message
RAI at DTE
appears
DTE has detected an LOS, LOF, AIS, or EER
condition.
1. Check the status of the DTE.
2. Check that the G.703 DTE cable is securely
attached at both ends.
Message
AIS at Net
appears
1. Upstream LTU/NTU is transmitting an AIS.
2. The network is transmitting an AIS.
1. Check the status of the upstream device(s).
2. Contact your facility provider.
4-12
December 1996
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Maintenance
Table 4-7
(2 of 2)
Troubleshooting
Symptom
Possible Cause
Solutions
Message
DTE is sending an AIS.
Check the DTE.
AIS at DTE
appears
Message EER at Facility problem.
Contact your facility provider.
Net appears
BPV LED is ON
1. Incompatible line coding format between the
DTE and the E1 NTU.
1. Check that the line coding format for the
G.703 DTE interface is correct.
2. G.703 DTE cable problem.
2. Check that the DTE cable is securely attached
at both ends.
A failure message Internal E1 NTU problem.
appears followed
Record the 8-digit code, then contact your
field service representative.
by an 8-digit code
(x x x x x x x x )
SNMP link is
down
1. The SNMP manager configuration is
mismatched with the device configuration.
1. Check that the configurations are matched.
2. The SNMP manager’s link layer protocol is not 2. Start the link layer protocol.
running.
No SNMP
communication
1. Cable problem.
1. Check that the cable is securely attached at
both ends.
via the AUX port
2. The link layer protocol is not running.
2. Change the Aux Use configuration option to
None, and then back to SNMP or Daisy (as
appropriate).
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4-13
ACCULINK 336x E1 NTU
Test Jacks
HDSL
NET
E1
E1
LINE MON
Lp1
In
In
Six test jacks are located on the front panel
and two monitor access points to the E1 NTU.
Lp2
Out
Out
495-14753
Figure 4-1. E1 NTU Test Jacks
E1
E1
HDSL
NET
Lp1
LINE MON
Out
Out
TERMINAL
EQUIPMENT
(DTE)
LINE
INTERFACE
NTU
CIRCUITRY
LINE
INTERFACE
HDSL
NETWORK
E1
E1
HDSL
NET
Lp2
Port 1
Port 3
Port 4
LINE MON
Port 2
In
In
495-14754
Figure 4-2. Test Jack Block Diagram
Table 4-8
Test Jack Functions
Test Jack Name
Function
HDSL NET Lp1
(HDSL Network Loop 1)
A break-in test jack that allows a signal to be inserted by external test equipment.
The signal is inserted and received on the HDSL (Loop 1) side of the E1 NTU.
HDSL NET Lp2
(HDSL Network Loop 2)
A break-in test jack that allows a signal to be inserted by external test equipment.
The signal is inserted and received on the HDSL (Loop 2) side of the E1 NTU.
E1 LINE In
A break-in test jack that allows an E1 signal to be inserted toward the E1 NTU on
the G.703 DTE side of the E1 NTU.
E1 LINE Out
A break-in test jack that allows an E1 signal to be inserted toward the terminal
equipment on the G.703 DTE side of the E1 NTU.
E1 MON In
(E1 Monitor In)
A monitor jack that nonintrusively monitors the signal coming out of the terminal
equipment on the G.703 DTE side of the E1 NTU.
E1 MON Out
(E1 Monitor Out)
A monitor jack that nonintrusively monitors the signal going into the terminal
equipment on the G.703 DTE side of the E1 NTU.
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3360-A2-GB20-20
Maintenance
2. From the Test screen, select Rlpbk.
Test Commands
The test commands enable you to run loopbacks and
test patterns on the E1 NTU, and to test the front panel
LEDs. These tests can help you isolate areas of trouble if
you are having problems with your E1 NTU.
Test:
Rlpbk Lpbk
Ptrns
F3
F1
F2
To access all Test commands from the Test branch,
press F2 to select Test from the top-level menu screen.
3. From the Rem Loopback screen, press the
Function key that corresponds to the specific
loopback test you want to perform.
E1 HDSL NTU
Stat
Test
Cnfig
F3
F1
F2
Rem Loopback:
DCLBUP
DCLBDN
F3
NOTE
F1
F2
The following procedures are
examples only. Screen displays
may vary depending on the
model and configuration of the
E1 NTU.
The Rem Loop screen appears, where Type is
either DCLBUP or DCLBDN.
Rem Loop: Type
Prt1
Prt2 Prt3
F3
F1
F2
Remote Loopback Tests
The Remote Loopback tests enable you to troubleshoot
your circuit by sending the following to a far-end device:
The DCLBUP and DCLBDN commands send the
requested sequence out the network interface on
the DS0 channels allocated to the port you select
here.
•
Data channel loopback up (DCLBUP) activation
sequence to initiate a V.54 Loop 2
•
Data channel loopback down (DCLBDN)
deactivation sequence to terminate a V.54 Loop 2
4. From the Rem Loop screen, press the desired
Function key to select the specific port. Use the
scroll keys, if necessary.
You cannot perform remote loopbacks if any of the
local loopbacks are active. If you attempt to do so, the
error message Invld Test Combo (Invalid Test
Combination) appears.
After you select a port, the sequence is sent to the
far-end device. During this time, Sending appears
on Line 2 of the LCD, followed by Command
Complete when the sequence is complete.
To send a Data Channel Activation or Deactivation
loopback sequence to the far-end device,
During the Sending message, you can press the
and
keys without affecting transmission
1. From the top-level menu screen, select Test.
of the loopback sequence.
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4-15
ACCULINK 336x E1 NTU
The Line Loopback command can be activated and
deactivated in response to commands received over the
network interface. The Network Interface configuration
option NET LLB controls whether the E1 NTU responds
to the commands transmitted on the network interface to
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:
•
•
•
•
•
•
Line Loopback (LLB)
The data port configuration option NET DCLB
controls whether the E1 NTU responds to inband V.54
commands to initiate DCLB for that port (see
Payload Loopback (PLB)
DTE Loopback (DLB)
Repeater Loopback (RLB)
Data Channel Loopback (DCLB)
Data Terminal Loopback (DTLB)
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 loopback
NOTE
DLB does not appear when the
G.703 DTE interface is disabled.
Table 4-9
Valid Loopback Combinations
LLB
N/A
NO
PLB
NO
DLB
YES
YES
N/A
RLB
YES
NO
DCLB
NO
DTLB
YES
YES
YES
YES
LLB
PLB
N/A
YES
NO
NO
DLB
RLB
DCLB
YES
YES
NO
NO
YES
NO
NO
N/A
NO
NO
YES
YES
(on separate
ports)
YES
(on separate
ports)
DTLB
YES
YES
YES
YES
YES
(on separate
ports)
YES
(on separate
ports)
4-16
December 1996
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Maintenance
Starting a Line Loopback
Starting a Payload Loopback
The Line Loopback command (LLB) loops the
received signal on the network interface back to the
network without change. All ones are transmitted on the
G.703 DTE port for the DS0 channels allocated to the
network interface. All ones are also transmitted to each
synchronous data port allocated to the network interface.
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 G.703
DTE port as possible (after it has passed through the
framing circuitry of the E1 NTU). Therefore, framing
CRCs and BPVs are corrected. All ones are transmitted on
the G.703 DTE port for the DS0 channels allocated to the
network interface. All ones are also transmitted to each
synchronous data port allocated to the network interface.
NTU
AIS
DTE
(G.703)
LLB
HDSL
NTU
AIS
DTE
(G.703)
PLB
HDSL
LINE LOOPBACK (LLB)
495-14758
PAYLOAD LOOPBACK (PLB)
To perform a Line loopback,
495-14759
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
To perform a Payload loopback,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
Test:
Rlpbk Lpbk
Ptrns
Test:
F3
F1
F2
Rlpbk Lpbk
Ptrns
F3
F1
F2
3. From the Loopback screen, select LLB.
3. From the Loopback screen, select PLB.
Loopback:
Abort LLB
PLB
Loopback:
F3
F1
F2
Abort LLB
PLB
F3
F1
F2
Test Started appears on Line 2. If a line loopback
is already in progress, the Already Active
message appears. If an invalid combination of
loopbacks is in progress, the error message Invld
loopback test combinations).
Test Started appears on Line 2. If a Payload
loopback is already in progress, the Already
Active message appears. If an invalid combination
of loopbacks is in progress, the error message
valid loopback test combinations).
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4-17
ACCULINK 336x E1 NTU
4. Select DLB.
Starting a DTE Loopback
The DTE Loopback command (DLB) loops the
received signal on the G.703 DTE port back to the DTE
without change. All ones are inserted into the DS0
channels allocated to the G.703 DTE port.
Loopback:
LLB
PLB
DLB
F3
F1
F2
A DTE loopback can be activated and deactivated
based on the state of an external contact on the G.703
DTE port. If this option is enabled with the DTE Interface
configuration option Extrn DLB, closing the contact
activates a DLB. The DLB remains active until the
section in Appendix D, Pin Assignments, for more
information.
Test Started appears on Line 2. If a DTE
loopback is already in progress, the Already
Active message appears. If an invalid combination
of loopbacks is in progress, the error message
valid loopback test combinations).
NTU
Starting a Repeater Loopback
AIS
DTE
(G.703)
DLB
HDSL
The Repeater Loopback command (RLB) loops the
signal being sent to the network back to the G.703 DTE
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 E1 NTU). Therefore, framing
CRCs and BPVs are corrected. All ones are transmitted to
the network interface.
DTE LOOPBACK (DLB)
495-14760
To perform a DTE loopback,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
NTU
AIS
DTE
(G.703)
RLB
HDSL
Test:
Rlpbk Lpbk
REPEATER LOOPBACK (RLB)
Ptrns
495-14761
F3
F1
F2
To perform a Repeater loopback,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
3. From the Loopback screen, press the
the DLB selection appears on the screen.
key until
Loopback:
Abort LLB
Test:
Rlpbk Lpbk
PLB
Ptrns
F3
F1
F2
F3
F1
F2
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3360-A2-GB20-20
Maintenance
3. From the Loopback screen, press the
the RLB selection appears on the screen.
key until
To perform a Data Channel loopback,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
Loopback:
Abort LLB
PLB
F3
F1
F2
Test:
Rlpbk Lpbk
Ptrns
F3
F1
F2
4. Select RLB.
Loopback:
3. From the Loopback screen, press the
key until
PLB
DLB
RLB
the DCLB selection appears on the screen.
F3
F1
F2
Loopback:
Abort LLB
PLB
Test Started appears on Line 2. If a Repeater
loopback is already in progress, the Already
Active message appears. If an invalid combination
of loopbacks is in progress, the error message
loopback test combinations).
F3
F1
F2
4. Select DCLB.
Loopback:
Starting a Data Channel Loopback
DLB
RLB
DCLB
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. All ones are inserted into the DS0 channels allocated
to that port.
F3
F1
F2
5. From the DCLB screen, press the Function key for
the port for which you want to perform the data
channel loopback. Use the scroll keys, if
necessary.
NTU
DATA
PORTS
(1 - 4)
AIS
DCLB
HDSL
Loopback: DCLB
Prt1
Prt2
Prt3
F3
F1
F2
DATA CHANNEL LOOPBACK (DCLB)
495-14775
Test Started appears on Line 2. If a Data Channel
loopback is already in progress, the Already
Active message appears. If an invalid combination
of loopbacks is in progress, the error message
valid loopback test combinations).
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4-19
ACCULINK 336x E1 NTU
5. From the DTLB screen, press the Function key for
the port for which you want to perform the data
terminal loopback. Use the scroll keys, if
necessary.
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 E1 framer. All ones are
transmitted to that port.
Loopback: DTLB
Prt1
Prt2
Prt3
F3
F1
F2
NTU
DATA
PORTS
(1 - 4)
AIS
DTLB
HDSL
Test Started appears on Line 2. If a Data
Terminal loopback is already in progress, the
Already Active message appears. If an invalid
combination of loopbacks is in progress, the error
message Invld Test Combo appears (see
DATA TERMINAL LOOPBACK (DTLB)
496-14774-01
To perform a Data Terminal loopback,
Aborting Loopbacks
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
The Abort Loopback command stops all loopback tests
or any selected loopback test currently active on the E1
NTU.
To abort one or more loopback tests,
Test:
Rlpbk Lpbk
Ptrns
1. From the top-level menu screen, select Test.
2. From the Test screen, select Lpbk.
F3
F1
F2
Test:
Rlpbk Lpbk
3. From the Loopback screen, press the
key until
Ptrns
the DTLB selection appears on the screen.
F3
F1
F2
4. Select DTLB.
Loopback:
3. From the Loopback screen, select Abort.
RLB
DCLB DTLB
F3
F1
F2
Loopback:
Abort LLB
PLB
F3
F1
F2
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3360-A2-GB20-20
Maintenance
4. From the Loopback Abort screen, press the
desired Function key to abort All or one specific
loopback test. Use the scroll keys, if necessary.
Test Patterns
Use the Test Pattern commands to send, monitor, and
abort test patterns. Available test patterns are:
•
•
32767 – A pseudo-random bit sequence (PRBS)
Loopback: Abort
that is 32,767 bits long (on the network only). This
All
LLB
PLB
15
is a PRBS 2 –1 test.
F3
F1
F2
511 – A pseudo-random bit sequence (PRBS) that is
511 bits long (on the data ports only). This is a
9
PRBS 2 –1 test.
If you select ALL, LLB, PLB, DLB, or RLB, skip
Step 5.
•
•
1-in-8 – A test pattern consisting of a one (1)
followed by seven zeros (on the network only).
5. From the Abort screen, press the Function key that
corresponds to the port for which you want to
abort the test. Use the scroll keys, if necessary.
QRSS – A quasi-random signal source
approximating live data that can be monitored for
logic errors (on the data ports only).
Sending Test Patterns
Abort: Test Name
Prt1
Prt2
Prt3
Use the Send command to start transmission of a test
pattern.
F3
F1
F2
Only one test pattern can be active at a time on one
combinations. Valid combinations are identified by YES.
When abort is complete, the message Command
Complete appears on the Abort screen.
To send a test pattern,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Ptrns.
NOTE
Be careful when selecting a
specific loopback test to abort. If
you mistakenly choose to abort a
loopback test that is not currently
running, a Command Complete
message will still display and the
loopback that is currently active
will still be running. You can use
the TStat branch of the menu to
view the test status to determine if
the abort was successful.
Test:
Rlpbk Lpbk
Ptrns
F3
F1
F2
3. From the Patterns screen, select Send.
Patterns:
Abort Send
Mon
F3
F1
F2
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4-21
ACCULINK 336x E1 NTU
4. From the Patterns Send screen, press F1 to send a
32767 pattern, F2 to send a 511 pattern, F3 to send
The Test Started screen appears.
a 1-in-8 pattern, or press the
key and the
appropriate Function key to send a QRSS pattern.
Send: Name and Dest
Test Started
Patterns: Send
F3
F1
F2
32767 511
1in8
F3
F1
F2
If the E1 NTU is already sending the test pattern
you selected, the message Already active appears.
If you selected an incompatible test pattern
combination, the message Invld Test Combo
If you send a 32767 or 1-in-8 pattern, skip Step 5.
5. From the Send screen, press the Function key that
corresponds to the port for which you want to send
a test pattern. Use the scroll keys, if necessary.
Send: Name
Prt1
Prt2
Prt3
F3
F1
F2
Table 4-10
Valid Send Test Pattern Combinations
32767 (Network)
511 (Port)
1-in-8 (Network)
QRSS (Port)
32767 (Network)
N/A
NO
NO
NO
NO
NO
511 (Port)
YES (on
YES (on
separate ports)
separate ports)
1 in 8 (Network)
QRSS (Port)
NO
NO
NO
N/A
NO
NO
YES (on
separate ports)
YES (on
separate ports)
4-22
December 1996
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Maintenance
5. From the Monitor screen, press the Function key
that corresponds to the port for which you want to
monitor a QRSS or 511 test pattern. Use the scroll
keys, if necessary.
Monitoring Test Patterns
Use the Monitor command to monitor 32767, QRSS, or
511 test patterns.
This command provides the number of errors detected
in the test pattern (5 digits, maximum 99999).
Monitor: Name
To monitor a 32767, QRSS, or 511 test pattern,
1. From the top-level menu screen, select Test.
2. From the Test screen, select Ptrns.
Prt1
Prt2
Prt3
F3
F1
F2
The Monitor screen appears with the error count.
If the maximum of 99999 is exceeded, OvrFlw
appears instead of the count. If the receiver loses
synchronization while the monitor is active, No
Sync appears.
Test:
Rlpbk Lpbk
Ptrns
F3
F1
F2
Aborting Test Patterns
Use the Abort command to stop all test patterns or any
selected test pattern active on the E1 NTU.
3. From the Patterns screen, select Mon.
To abort test patterns,
Patterns:
Abort Send
Mon
1. From the top-level menu screen, select Test.
2. From the Test screen, select Ptrns.
F3
F1
F2
Test:
Rlpbk Lpbk
4. From the Patterns Mon screen, press F1 for 32767,
F2 for QRSS, or F3 for 511.
Ptrns
F3
F1
F2
Patterns: Mon
32767 QRSS 511
3. From the Patterns screen, select Abort.
F3
F1
F2
Patterns:
Abort Send
If you monitor a 32767 pattern, skip Step 5.
Mon
F3
F1
F2
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4-23
ACCULINK 336x E1 NTU
4. From the Patterns Abort screen, press the desired
Function key to abort either All active test
patterns, active Send test patterns, or the active
Monitor (Mon) test pattern.
Lamp Test
Use the Lamp Test commands to start and stop a test of
the E1 NTU front panel LCD and LEDs.
Patterns: Abort
Starting a Lamp Test
All
Send
Mon
To start a Lamp test,
F3
F1
F2
1. From the top-level menu screen, select Test.
2. From the Test screen, press the
key until the
If you select All, the E1 NTU terminates all active
test patterns and displays the message Command
Complete. Skip Step 5.
Lamp selection appears on the screen.
Test:
Rlpbk Lpbk
Ptrns
NOTE
Be careful when selecting a specific
test pattern to abort. If you mistakenly
choose to abort a test pattern that is
not currently running, a Command
Complete message still displays and
the test pattern currently active still
runs. You can use the TStat branch of
the menu to view the test status to
determine if the abort was successful.
F3
F1
F2
3. From the Test screen, select Lamp.
Test:
Lpbk Ptrns Lamp
F3
F1
F2
5. From the Abort screen, press the Function key that
corresponds to the network or port for which you
want to abort a test pattern. Use the scroll keys, if
necessary.
4. From the Lamp Test screen, select Start.
Lamp Test:
Abort Start
Abort: Send or Mon
NET
Prt1
Prt2
F3
F1
F2
F3
F1
F2
The E1 NTU terminates the selected test pattern
and displays the message Command Complete.
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December 1996
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3360-A2-GB20-20
Maintenance
5. The following screens alternately appear on the
LCD until you press a Function key to return to
the Lamp Test screen. In addition, all LEDs blink.
Displaying E1 NTU Test Status
Use the Test Status command to display the active tests
for the E1 NTU. Status messages that can display on the
To display test status,
1. From the top-level menu screen, select Stat.
F3
F1
F2
E1 HDSL NTU
Stat
Test
Cnfig
0123456789 : ; < = > ?
@ABCDEFGHIJKLMNO
F3
F1
F2
F3
F1
F2
2. From the Status screen, press the
TStat selection appears on the screen.
key until the
6. When you are satisfied that all LEDs are lighting
and the LCD is functioning properly, abort the
Lamp test from the Lamp Test screen. If there is
no activity on the E1 NTU front panel for five
minutes, the Device Health and Status screen
appears automatically. However, the Lamp test
remains active until it is aborted.
Status:
HDSL DevHS STest
F3
F1
F2
Aborting a Lamp Test
3. Select TStat.
To abort the Lamp test,
Status:
STest Perf
1. Display the Lamp Test screen. To do this when the
LCD is alternating the Lamp test screens, press
any Function key. Otherwise, follow Steps 1
through 3 for starting a Lamp test.
TStat
F3
F1
F2
The Test Status screen appears showing you what
tests are active for the E1 NTU.
Lamp Test:
Abort Start
F3
F1
F2
2. From the Lamp Test screen, select Abort.
Lamp Test:
Abort Start
F3
F1
F2
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4-25
ACCULINK 336x E1 NTU
Table 4-11
Test Status Messages
Message
No Test Active
LLB Test Active
PLB Test Active
DLB Test Active
RLB Test Active
DCLB on Port n
DTLB on Port n
1–8 Test Active
32767 Tst Active
QRSS on Port n
511 on Port n
Description
No tests are currently active.
The network interface is in Line loopback.
The network interface is in Payload loopback.
The G.703 DTE port is in DTE loopback.
The G.703 DTE port is in Repeater loopback.
Port n is in a Data Channel loopback.
Port n is in a Data Terminal loopback.
A 1-in-8 test pattern is being sent on the network interface.
A 32767 test pattern is being sent on the network interface.
A QRSS test pattern is being sent to the network on the channels allocated to port n.
A 511 test pattern is being sent to the network on the channels allocated to port n.
A QRSS test pattern is being monitored on the channels allocated to port n.
A 32767 test pattern is being monitored on the network interface.
A 511 test pattern is being monitored on the channels allocated to port n.
The G.703 DTE port is being held in DTE loopback by the external contact.
The Lamp test is currently active.
Mon QRSS, Port n
Mon 32767, Net
Mon 511, Port n
DLB Test, Extrn
Lamp Test Active
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December 1996
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Front Panel Menu
A
NOTE
Some selections are not available
on 1-port and 2-port E1 NTUs.
E1 HDSL NTU
Stat
Test
Cnfig
Ctrl
Rel LED ClrReg Reset CID DL
Rlpbk
Lpbk
Abort
32767
Ptrns
Lamp
Mon
HDSL DevHs STest Perf TStat LED ID
Send
E1 Prtn
E1 HDSL DTE Prt1 Prt2 Prt3 Prt4
1in8
511 QRSS
NET
DTE
Prtn
DCLBUP DCLBDN
Cur 24Tot Intvl
Near Far
32767 QRSS
DTE
Prt1
Prt2
Prt4
511
Prt3
Near Far
E1
Cur 24Tot Intvl
Cur 24Tot Intvl
Lpn
Abort PLB RLB DTLB
LLB DLB DCLB
Load Edit Area From:
Cur 8Tot Intvl
Activ Cust1 Cust2 Fact
Choose Function:
Edit
Save
Activ Cust1 Cust2
DTE
Port
NET
Chan
Gen
User
Alarm
SNMP
Dsply Clear DTE Prt1 Prt2 Prt3 Prt4
Gen
Trap
Copy
Port Select :
All Prt1 Prt2 Prt3 Prt4
Prt1
Prt2
Prt3
Prt4
495-14756
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A-1
Technical Specifications
B
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1
Overview
The technical specifications for the Models 3360,
Table B-1
(1 of 2)
Models 3360/3364/3365 NTUs Technical Specifications
Specifications
Criteria
POWER REQUIREMENTS
Typical:
AC Power Module
Refer to the labeling on the ac power module for input requirements
Optional:
+24 Vdc
+20 Vdc to +32 Vdc, 0.75A
–38 Vdc to –60 Vdc, 0.375A
–38 Vdc to –60 Vdc, 0.375A
–48 Vdc
–48 Vdc Redundant
POWER CONSUMPTION AND
DISSIPATION
22.0 watts, 75.0 Btu per hour at 115 volts (ac power); 18.0 watts, 61.5 Btu per
hour at +24 and –48 Vdc (dc power)
G.703 DTE INTERFACE
Physical Interface
BNC pair for 75 ohm coaxial cables (unbalanced) or
DB15 socket for 120 ohm twisted pair (balanced)
CRC-4, non-CRC-4
Framing Format
Coding Format
AMI, HDB3
HDSL Network INTERFACE
Physical Interface
Framing Format
Coding Format
RJ48C for HDSL
CRC-4, non-CRC-4
HDB3
PORT INTERFACE
Standards
Rates
EIA 530A, V.35, RS-449, X.21
Nx64 kbps
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ACCULINK 336x E1 NTU
Table B-1
(2 of 2)
Models 3360/3364/3365 NTUs Technical Specifications
Specifications
Criteria
APPROVALS
CISPR 22 Class A compliant
CLOCKING SOURCES
HDSL Network interface, synchronous data port, internal clock, G.703 DTE
interface, or (for 2-port and 4-port E1 NTUs) external clock
PHYSICAL DIMENSIONS
Height
Models 3360 and 3364 NTUs = 3.90 inches (10.0 cm)
Model 3365 NTU = 2.13 inches (5.4 cm)
7.63 inches (19.4 cm)
Width
Depth
12.13 inches (30.8 cm)
WEIGHT
Models 3360 and 3364 NTUs = 3.6 pounds (1.7 kg)
Model 3365 NTU = 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
B-2
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Configuration Options
C
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1
DTE Interface Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2
Port Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3
Network Interface Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-7
Channel Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-8
General Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-12
User Interface Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-13
Alarm Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-16
SNMP Configuration Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-17
Configuration Worksheets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-23
•
•
•
•
General Configuration Options
Overview
The General configuration options configure clocks
The E1 NTU configuration option tables contain a list
of all configuration options and their selectable options.
The configuration options are arranged into functional
groups:
User Interface Configuration Options
The User Interface configuration options configure
•
DTE Interface Configuration Options
The DTE Interface configuration options configure
the G.703 DTE interface on the E1 NTU
Alarm Configuration Options
The Alarm configuration options specify how alarm
•
•
Port Configuration Options
SNMP Configuration Options
The Port configuration options configure the
The SNMP Configuration Options configure the
Network Interface Configuration Options
The Network Interface configuration options
configure the HDSL Network interface on the
The configuration tables include a description of each
configuration function and its selectable options. In the
tables, the top line of each configuration option entry
indicates the factory default setting.
•
Channel Configuration Options
The Channel configuration options configure the
G.703 DTE and synchronous data port channel
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C-1
ACCULINK 336x E1 NTU
DTE Interface
Configuration Options
Table C-1
DTE Interface Configuration Options
DTE Port: Enab
Next Enab Disab Prev
G.703 DTE Port. Enables the use of the G.703 DTE port.
Enab – Allows the use of the G.703 DTE interface.
Disab – Prohibits the use of the G.703 DTE interface.
NOTE: When this configuration option is disabled, you cannot display or configure any other DTE Interface
configuration options and TS16 is set to data. If a clock source configuration option is set to DTE, it is changed
to NET.
DTE Frame: noCRC
Next CRC4 noCRC Prev
DTE Line Framing Format. Designates the framing format for the G.703 DTE interface.
CRC4 – Configures for the CRC4 framing format.
noCRC – Configures for the non-CRC4 framing format.
DTE Coding: HDB3
Next AMI HDB3 Prev
DTE Line Coding. Designates the line coding format to be used on the G.703 DTE interface.
AMI – Uses the Alternate Mark Inversion coding format.
HDB3 – Uses the High Density Bipolar 3 coding format.
Extrn DLB: Disab
Next Enab Disab Prev
DTE Loopback on External Contact. Allows the initiation and termination of a DTE Loopback (DLB) by an external
Enab – Allows the E1 NTU to begin a DLB when the external contact is closed (if the current E1 NTU state allows a DLB
to be performed). If the E1 NTU is already performing a DLB, closing the contact will have no effect. Opening the contact
takes the E1 NTU out of DLB. The E1 NTU remains in DLB as long as the contact remains closed.
Disab – Prevents the state of the external contact from affecting the operation of DLB.
Send Ones: Enab
Next Enab Disab Prev
Send All Ones on DTE Failure. Specifies the action to take on the signal transmitted to the network when a valid signal
cannot be recovered from the G.703 DTE interface (due to an LOS, OOF, or AIS condition).
Enab – Sends all ones on the DS0 channels allocated to the network interface when an LOS, AIS, or OOF condition
occurs on the G.703 DTE interface.
Disab – Passes the data unchanged to the network interface channels.
C-2
December 1996
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Configuration Options
Port Configuration Options
Table C-2
(1 of 4)
Port Configuration Options
Port Type: E530
Next E530 V.35 RS449 X.21 Prev
Data Port Type. 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 E1 NTU.
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, you must set the All Ones configuration option to RTS or Disab.
Net DCLB: Disab
Next Enab Disab Prev
Network Initiated DCLB. 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.
Enab – Allows the E1 NTU to begin a DCLB for this port when it receives a DCLB-actuate sequence (if the current E1
NTU state allows a DCLB to be performed). Receiving a DCLB-release sequence terminates the DCLB.
Disab – Ignores the DCLB-actuate and DCLB-release sequences for this port.
Port LB: Disab
Next Disab DTLB DCLB Both Prev
Port (DTE) Initiated Loopbacks. 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.
Disab – 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.
3360-A2-GB20-20
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C-3
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ACCULINK 336x E1 NTU
Table C-2
(2 of 4)
Port Configuration Options
All Ones: Both
Next Disab DTR RTS Both Prev
Send All Ones on Data Port Not Ready. 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.
Disab – 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 Disab.
Rcv RAI: Halt
Next None Halt Prev
Action on Network RAI Alarm. Specifies the action taken on this port when a Remote Alarm Indication (RAI) is received
on the network interface.
None – Makes the data port unaffected by RAIs received on the network interface.
Halt – Stops the transmission of data on the port and disables the data port when RAIs are received on the network
interface. When RAIs 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.
Tx Clock: Int
Next Int Ext Prev
Data Port Transmit Clock. Specifies whether the transmitted data for the port is clocked using an internal clock provided
by the E1 NTU (synchronized to the clock source specified by the clock source configuration options in the General
configuration option group) or an external clock provided by the DTE connected to the port. When an external clock is
used, it must be synchronized to the same clock source as the E1 NTU.
Int – Indicates the clock is provided internally by the E1 NTU on the TXC interchange circuit DB (CCITT 114).
Ext – Indicates the clock is provided externally by the DTE on the XTXC interchange circuit DA (CCITT 113). Use this
selection when either the primary or secondary clock source is set to this data port.
InvertTxC: Disab
Next Enab Disab Prev
Invert Transmit Clock. Specifies whether the clock supplied by the E1 NTU 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 E1 NTU and the DTE are causing data errors.
Enab – Indicates TXC supplied by the E1 NTU on this port is phase inverted.
Disab – Indicates TXC supplied by the E1 NTU on this port is not phase inverted.
InvrtData: Disab
Next Enab Disab Prev
Invert Transmitted and Received Data. 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.
Enab – Indicates the transmitted data and received data for this port are inverted.
Disab – Indicates the transmitted data and received data for this port are not inverted.
C-4
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Configuration Options
Table C-2
(3 of 4)
Port Configuration Options
EDL: Disab
Next Enab Disab Prev
Embedded Data Link. 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 a management link for SNMP.
Enab – Indicates the port’s EDL is enabled.
Disab – Indicates the port’s EDL is disabled.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: If the local E1 NTU’s EDL is enabled, then the remote E1 NTU’s EDL must also be enabled.
NOTE: EDL is not recommended for networks in which data is examined for routing purposes (e.g., frame relay, x.25).
Err Rate: 10E-4
Next 10E-4 10E-5 10E-6 10E-7 10E-8 10E-9 Prev
Port Excessive Error Rate Threshold. 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 1984 kbps, EER is declared if more than 1,983 CRC5 errors are detected in a
10-second period. It is cleared with less than 1,984 errors in ten seconds.
10E-5 – 10E-5 Threshold. For example, at 1984 kbps, EER is declared if more than 1,189 CRC5 errors are detected in a
60-second period. It is cleared with less than 1,190 errors in sixty seconds.
10E-6 – 10E-6 Threshold. For example, at 1984 kbps, EER is declared if more than 119 CRC5 errors are detected in a
60-second period. It is cleared with less than 120 errors in sixty seconds.
10E-7 – 10E-7 Threshold. For example, at 1984 kbps, EER is declared if more than 11 CRC5 errors are detected in a
60-second period. It is cleared with less than 12 errors in sixty seconds.
10E-8 – 10E-8 Threshold. For example, at 1984 kbps, EER is declared if more than 53 CRC5 errors are detected in three
15-minute intervals. It is cleared with less than 54 errors in three 15-minute intervals.
10E-9 – 10E-9 Threshold. For example, at 1984 kbps, EER is declared if more than 5 CRC5 errors are detected in three
15-minute intervals. It is cleared with less than 6 errors in three 15-minute intervals.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: This configuration option is not available if EDL is disabled.
Near-end: Disab
Next Disab Maint Send Both Prev
Near-End Performance Statistics. Specifies whether the E1 NTU will maintain near-end performance statistics and send
performance report messages (PRMs) for a particular port.
Disab – Disables near-end performance statistics and does not send PRMs.
Maint – 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.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: This configuration option is not available if EDL is disabled.
NOTE: If the local E1 NTU is configured to send near-end performance statistics, then the remote device must be
configured to maintain far-end performance statistics.
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ACCULINK 336x E1 NTU
Table C-2
(4 of 4)
Port Configuration Options
Far-end: Disab
Next Disab Maint Prev
Far-End Performance Statistics. Specifies whether to monitor for far-end performance report messages (PRMs) and
maintain far-end performance registers for a particular port.
Disab – Disables far-end performance statistics.
Maint – Monitors the port’s EDL for PRMs and maintains far-end performance statistics.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: This configuration option is not available if EDL is disabled.
NOTE: If the local E1 NTU is configured to maintain far-end performance statistics, then the remote device must be
configured to send near-end performance statistics.
Mgmt Link: Disab
Next Disab SNMP Prev
EDL Management Link. Specifies whether the EDL management link is enabled for a particular port. Selecting SNMP
allows SNMP management traffic to flow over the 4 kbps in-band data link provided by EDL.
Disab – Disables the port’s EDL management link.
SNMP – Enables the port’s EDL management link.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: This configuration option is not available if EDL is disabled or FDL is enabled for SNMP.
NOTE: If the local E1 NTU’s EDL is enabled, then the remote device’s EDL must also be enabled.
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Configuration Options
Network Interface
Configuration Options
Table C-3
Network Interface Configuration Options
HDSL Mode: NTU
Next NTU LTU Prev
HDSL Mode. Specifies whether the operating mode is Network Termination Unit (NTU) or Line Termination Unit (LTU). In
a poll/response environment, the LTU serves as the control unit that polls the NTU and controls such items as the
distribution of payload data, start-up procedures, and timing references.
NTU – Configures for the NTU mode.
LTU – Configures for the LTU mode.
NET Frame: noCRC
Next CRC4 noCRC Prev
Network Line Framing Format. Designates the framing format for the HDSL Network interface.
CRC4 – Configures for the CRC4 framing format.
noCRC – Configures for the non-CRC4 framing format.
Mgmt Link: Disab
Next Disab SNMP Prev
FDL Management Link. Specifies whether Facility Data Link (FDL) is enabled. Selecting SNMP allows SNMP
management traffic to flow over the 4 kbps data link provided by FDL. Running SNMP over FDL requires an end-to-end
FDL connection and cannot be terminated within the network.
Disab – Disables the FDL Management Link.
SNMP – Enables the FDL Management Link for SNMP.
NOTE: This configuration option is not available if EDL is enabled for SNMP.
NOTE: If the local E1 NTU’s FDL is enabled for SNMP, the remote E1 NTU’s FDL must also be enabled for SNMP.
HDSL: Disab
Next Disab Maint Prev
HDSL Performance Statistics. Specifies whether to monitor local HDSL performance statistics for each loop and maintain
Loop 1 (Lp1) and Loop 2 (Lp2) performance registers.
Disab – Disables Lp1 and Lp2 performance statistics.
Maint – Maintains Lp1 and Lp2 performance statistics.
Circuit Ident:
Next Edit Clear Prev
Network Circuit Identifier. 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.
Edit – Allows you to edit and/or display the network circuit identifier using the generic text string entry screen.
Clear – Allows you to clear the network circuit identifier. The network circuit identifier will be set to a null string.
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ACCULINK 336x E1 NTU
Channel Configuration
Options
The Channel configuration options are divided into two
tables as follows:
NOTE
DTE and data port configuration
options. For information about the
operation of Display and Clear,
refer to the Configuring DS0
Operation.
•
•
Data Port Channel Configuration Options
Table C-4
DTE Channel Configuration Options
DTE Channels:
TS16 Assign
G.703 DTE Channel. Allows the selection of time-slot 16 (TS16) for signaling information or assigns DS0 channels from
the G.703 DTE interface to DS0 channels on the network interface.
TS16 – Allows the selection of TS16 for signaling information (see the TS16 configuration option below).
Assign – Allows the assignment of DS0 channels from the G.703 DTE interface to the network interface.
TS16: Data
Data Rsvd CAS
G.703 DTE TS16 Allocation. Specifies whether time-slot 16 (TS16) is reserved for signaling information or available for
data.
Data – Specifies that TS16 is available for data.
Rsvd – Specifies that TS16 is reserved for Common-Channel Signaling information. The time slots must be directly
connected so that the G.703 DS0 channels are connected to the corresponding network DS0 channels (e.g., D1 to N1,
D2 to N2, etc.).
CAS – Specifies that TS16 is reserved for Channel-Associated Signaling information. Except for time-slot 16, the other
time slots do not need to be directly connected as they are in Common-Channel Signaling.
NOTE: Changing this configuration option from one selection to the other (Data, Rsvd, or CAS), deallocates all DS0
channels assigned to either the network interface or the G.703 DTE interface.
N1 N2 N3 N4 N5 N6 N7 N8 N9 N10 N11 N12 N13 N14 N15 ... N31
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
...
–
G.703 DTE Channel Allocation. Assigns DS0 channels from the G.703 DTE interface to the network interface.
Line 1 displays the 31 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
–
This DS0 channel is not allocated. You can modify this value on this screen.
Prtn This DS0 channel is allocated to port n, where n is a number from 1 to 4. You cannot modify this value
on this screen.
Dn
This DS0 channel is allocated to the G.703 DTE interface DS0 channel n, where n is a number
from 1 to 31. You can modify this value on this screen.
Assign DTE channels to network channels by pressing the Function key below the network channel desired. The DTE
channel number scrolls up one number each time you press the Function key. Only unassigned DTE channels appear
during scrolling.
NOTE: If time-slot 16 is reserved for signaling (see the TS16 configuration option), D16 is automatically allocated to N16
and will not be available for allocation on this screen.
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Configuration Options
Table C-5
(1 of 3)
Data Port Channel Configuration Options
Channel Config:
Dsply Clear DTE Prt1 Prt2 Prt3 Prt4
_______________________
NOTE: The configuration options described in this table are made available by selecting Prt1, Prt2, Prt3, or Prt4
about the operation of Display and Clear, refer to the Configuring DS0 Channels section in Chapter 3,
Operation.
Data Port Channel. Allows the assignment of a particular port to DS0 channels on either the network interface, the G.703
DTE interface, or another port (see the Assign To configuration option below).
NOTE: For 2-port E1 NTUs, only Ports 1 and 2 are available; for 1-port E1 NTUs, only Port 1 is available.
Assign To: NET
Next NET DTE Prtn Prtn Prtn Prev
Data Port Channel Allocation Destination. Allows you to assign this port to DS0 channels on either the network interface,
the G.703 DTE interface, or another port.
NET – Assigns this port to DS0 channels on the network interface.
DTE – Assigns this port to DS0 channels on the G.703 DTE interface. If the G.703 DTE interface is disabled, this
selection is not displayed.
Prtn – Assigns this port to another port, where n is the port number of all available ports except the port selected from the
Channel Config screen. For example, if you select Prt1 from the Channel Config screen, Prt2, Prt3, and Prt4 appear for
4-port E1 NTUs. Use this feature to designate a port as a backup port. You can attach an external backup device to Prtn
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. Selecting Prtn and Next takes you directly to the Port Rate
configuration option, bypassing the Assign By configuration option. EDL (for 2-port and 4-port E1 NTUs) 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 E1 interface to the other (NET or DTE) deallocates all DS0 channels
allocated to the previous interface.
Assign By: Block
Next Block Chan Prev
Data Port Channel Allocation Method. If NET or DTE is selected using the Assign To configuration option, this
configuration option designates the method for assigning DS0 channels to the destination E1 interface.
Block – Allocates DS0 channels to this port by the block method.
Chan – Allocates DS0 channels to this port by the individual channel method.
NOTE: If time-slot 16 is reserved for signaling, the DS0 channels associated with time-slot 16 are not available for
assignment using either method (Block or Chan).
NOTE: Changing this configuration option from one method to the other (Block or Chan) deallocates all DS0 channels
assigned to either the network interface or the G.703 DTE interface.
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ACCULINK 336x E1 NTU
Table C-5
(2 of 3)
Data Port Channel Configuration Options
Port Rate: 384
Next 64 128 192 256 320 384 448 512 576 640 704 768 832 896 960 1024 1088
1152 1216 1280 1344 1408 1472 1536 1600 1664 1728 1792 1856 1920 1984 Prev
Data Port Rate (appears when using the block channel allocation method, or when a synchronous data port is assigned
to another synchronous data port). Designates the data rate for the port. The base rate is Nx64.
NOTE: This configuration option does not appear if the individual channel allocation method (Chan) is selected using the
Assign By configuration option.
NOTE: If time-slot 16 is reserved for signaling, the highest port rate (1984) does not appear.
NOTE: Changing this configuration option from one rate to another deallocates all DS0 channels assigned to either the
network interface or the G.703 DTE interface.
NOTE: When you enable EDL (for 2-port and 4-port E1 NTUs), 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.
NOTE: When you enable EDL (for 2-port and 4-port E1 NTUs) on a synchronous data port and the clock source (either
primary or secondary) 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.
NOTE: For the 3364 NTU there is a hardware limitation that limits the combined bandwidth used by Port 1 and Port 3 to
a total of 2048 kbps and the combined bandwidth used by Port 2 and Port 4 to 2048 kbps. Thus, when entering
this menu, the rate choices are limited due to this constraint. This limitation only occurs in configurations
mapping a port to a port or when mapping ports to the G.703 DTE interface and to the network.
Start At:
Next Clear N1 N2 N3 N4 N5 N6 N7 N8 N9 N10 N11 ... N31 Prev
OR
Start At:
Next Clear D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 ... D31 Prev
Data Port Channel Allocation (appears for the block method only). Designates the starting DS0 channel (N1–N31 for the
network interface and D1–D31 for the G.703 DTE interface).
Available selections are only those DS0 channels that provide enough bandwidth (based on the configured data rate) to
be used as a starting channel number.
Select the desired starting channel number by pressing the Function key under that number. When you make the
selection, the E1 NTU allocates the correct amount of DS0 channels to support the data rate currently configured for the
port.
Clear – Deallocates all DS0 channels for this port from either the network interface or the G.703 DTE interface.
NOTE: This configuration option does not appear if the individual channel allocation method (Chan) is selected using the
Assign By configuration option, or if Prtn is selected using the Assign To configuration option.
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Configuration Options
Table C-5
(3 of 3)
Data Port Channel Configuration Options
N1 N2 N3 N4 N5 N6 N7 N8 N9 N10 N11 N12 ... N31
Next
OR
–
–
–
–
–
–
–
–
–
–
–
–
...
Prev
Prev
D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 ... D31
-– ...
Next
–
–
–
–
–
–
–
–
–
–
–
Data Port Channel Allocation (appears for the individual channel method only). Designates the DS0 channel to allocate to
this port (N1–N31 for the network interface and D1–D31 for the G.703 DTE interface).
Line 1 displays the 31 channels for the network interface or the G.703 DTE interface. Line 2 displays what is allocated to
the DS0 channel indicated in Line 1. Possible values for Line 2 are:
Value Meaning
–
This DS0 channel is not allocated. You can modify this value on this screen.
Prtn
This DS0 channel is allocated to port n, where n is a number from 1 to 4. You can modify this value
on this screen for this port only.
Nn
Dn
This DS0 channel is allocated to the network interface DS0 channel n, where n is a number from
1 to 31. You cannot modify this value on this screen.
This DS0 channel is allocated to the G.703 DTE interface DS0 channel n, where n is a number
from 1 to 31. You can modify this value on this screen.
Select the channel by pressing the Function key under that number. To deallocate a port, press the Function key under
that port number. Pressing the Function key under channels assigned to other ports has no effect.
NOTE: The E1 NTU automatically derives the data rate for the port from the number of DS0 channels allocated.
NOTE: If time-slot 16 is reserved for signaling , D16 automatically connects to N16 and cannot be changed from this
screen.
NOTE: For the 3364 NTU there is a hardware limitation that limits the combined bandwidth used by Port 1 and Port 3 to
a total of 2048 kbps and the combined bandwidth used by Port 2 and Port 4 to 2048 kbps. If a selection of Prtn
causes this limit to be exceeded, the selection is ignored and the “–” will continue to be displayed for the
channel.
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ACCULINK 336x E1 NTU
General Configuration Options
Table C-6
General Configuration Options
Pri Clk Src: NET
Next NET DTE Prt1 Prt2 Prt3 Prt4 Int Ext Prev
Primary Clock Source. Specifies the primary clock source for the E1 NTU. This selection synchronizes all internal timing
and external interface clocks. Failure of the clock specified by this selection results in automatic fallback to the secondary
clock source.
NET – Configures the HDSL Network interface as the primary clock source.
DTE – Configures the G.703 DTE interface as the primary clock source. This selection is not available if the G.703 DTE
interface is disabled. If the G.703 DTE interface is disabled after making this selection, the primary clock source is
changed to NET.
Prt1, 2, 3, 4 – Configures data port 1, 2, 3, or 4 as the primary clock source. Set the same port’s Transmit Clock to
External. If you enable EDL for the same port, 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. This selection is
only available on 2-port and 4-port E1 NTUs.
Int – Configures the internal clock as the primary clock source.
Ext – Configures an external clock (provided through the Clock In connector) as the primary clock source. This selection
is only available on 2-port and 4-port E1 NTUs.
NOTE: For 2-port E1 NTUs, only Ports 1 and 2 are available.
Sec Clk Src: NET
Next NET DTE Prt1 Prt2 Prt3 Prt4 Ext Disab Prev
Secondary Clock Source. Specifies the secondary clock source for the E1 NTU. Failure of the clock specified by the
Primary Clock Source selection results in automatic fallback to the secondary clock source. When this occurs, this
selection synchronizes all internal timing and external interface clocks. Failure of the clock specified by the Secondary
Clock Source selection results in automatic fallback to internal clock.
NET – Configures the HDSL Network interface as the secondary clock source.
DTE – Configures the G.703 DTE interface as the secondary clock source. This selection is not available if the G.703
DTE interface is disabled. If the G.703 DTE interface is disabled after making this selection, the secondary clock source is
changed to NET.
Prt1, 2, 3, 4 – Configures data port 1, 2, 3, or 4 as the secondary clock source. Set the same port’s Transmit Clock to
External. If you enable EDL for the same port, 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.
Ext – Configures an external clock (provided through the Clock In connector) as the secondary clock source.
Disab – Disables the secondary clock source. Failure of the primary clock source results in automatic fallback to the
internal clock.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
NOTE: For 2-port E1 NTUs, only Ports 1 and 2 are available.
Clock Rate: 2048
Next 2048
8
Prev
External Clock Rate. Specifies the clock rate when the primary or secondary clock source is configured for external clock
(Ext). 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.
8 – Sets the input rate of the external clock to 8 kHz.
NOTE: This configuration option is only available on 2-port and 4-port E1 NTUs.
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Configuration Options
User Interface
Configuration Options
Table C-7
(1 of 3)
User Interface Configuration Options
Self-Test: Enab
Next Enab Disab Prev
Initial Self-Test. Specifies whether the E1 NTU performs a device self-test at power-up and after a device reset.
Enab – Enables a self-test.
Disab – Disables the self-test.
Com Use: ASCII
Next SNMP ASCII Daisy Prev
Communication Port Use. Specifies how the communication port is used. The communication port can be configured for
only one use (each use is mutually exclusive): it can be configured as the management link to an external SNMP
manager, it can be configured as a proprietary ASCII port, or it can be configured as an SNMP management link daisy
chained to another 33xx Series device.
SNMP – Specifies that the communication port is used as the management link to an external SNMP manager.
ASCII – Specifies that the communication port is used as a proprietary ASCII port supporting Front Panel Emulation
software and ASCII alarm messages.
Daisy – Specifies that the communication port is used as an SNMP management port that is daisy chained to the
auxiliary port of an another 33xx Series device.
NOTE: SNMP and ASCII selections can be made using the ifAdminStatus MIB object (up = SNMP, testing = ASCII).
NOTE: The Daisy selection requires the use of a customer-supplied, 8-pin-to-8-pin, straight-through cable. Whenever
the cable is connected or disconnected, change the Daisy selection to another selection, and then back to Daisy,
to ensure that the correct parameters have been negotiated for the link layer.
Com Type: Async
Next Async Sync Prev
Communication Port Type. Specifies whether the communication port uses synchronous or asynchronous operation when
it is configured as the SNMP management link.
Async – Configures the communication port for asynchronous operation.
Sync – Configures the communication port for synchronous operation.
NOTE: This configuration option is not available if the Com Use configuration option is set to ASCII or Daisy. In these
cases, the communication port is always asynchronous.
Com Clk: Int
Next Int Ext Prev
Communication Port Synchronous Clock. Specifies whether the communication port uses internal or external clocking
when it is configured for synchronous operation.
Int – Configures the communication port for internal clocking.
Ext – Configures the communication port for external clocking.
NOTE: This configuration option is not available if the Com Type configuration option is set to Async.
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ACCULINK 336x E1 NTU
Table C-7
(2 of 3)
User Interface Configuration Options
Com Rate: 9.6
Next 1.2 2.4 4.8 9.6 14.4 19.2 38.4 Prev
Communication Port Rate. Configures the bit rate for the communication port.
1.2 – Sets the bit rate to 1200 bps.
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.
Char Length: 8
Next
7
8
Prev
Communication Port Character Length. Configures the character length (7 or 8 bits) for the communication port.
NOTE: This configuration option must be set to 8 if the communication port is used for Front Panel Emulation or SNMP
management.
NOTE: This configuration option is not available if the communication port is configured for synchronous operation.
CParity: None
Next None Even Odd Prev
Communication Port Parity. 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.
CStop Bits: 1
Next
1
1.5
2
Prev
Communication Port Stop Bits. 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.
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Configuration Options
Table C-7
(3 of 3)
User Interface Configuration Options
Ignore DTR: No
Next Yes No Prev
Communication Port Ignore DTR State. Specifies whether the E1 NTU ignores the state of the Data Terminal Ready
(DTR) input to the communication port.
Yes – DTR is ignored.
No – DTR is not ignored.
NOTE: This configuration option is not available if the communication port is configured for synchronous operation.
Aux Use: None
Next None SNMP Daisy Prev
Auxiliary Port Use. 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.
SNMP – Specifies that the auxiliary port is to be used as the management link to an external SNMP manager via an
external LAN Adapter.
Daisy – Specifies that the auxiliary port is to be used as an SNMP management link that is daisy chained to the
communication port of another 33xx Series device.
NOTE: The Daisy or SNMP selection requires the use of a customer-supplied, 8-pin-to-8-pin, straight-through cable.
Whenever the cable is connected or disconnected, change the selection to None, and then back to Daisy or
SNMP, to ensure that the correct parameters have been negotiated for the link layer.
Aux Rate: 19.2
Next 9.6 14.4 19.2 38.4 Prev
Auxiliary Port Rate. 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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ACCULINK 336x E1 NTU
Alarm Configuration Options
Table C-8
Alarm Configuration Options
Alrm Msg: Disab
Next Enab Disab Prev
Alarm Messages. Controls the generation of alarm messages, which are routed to an ASCII terminal or printer attached to
the communication port. For more information, refer to the Alarms section in Chapter 4, Maintenance.
Enab – Enables alarm messages routed to the communication port.
Disab – Prevents alarm messages for any alarm conditions.
NOTE: Alarm messages are only sent to the communication port if the Com Use configuration option is set to ASCII,
otherwise the alarm messages are discarded.
SNMP Trap: Disab
Next Enab Disab Prev
SNMP Trap Enable. Specifies whether SNMP trap messages are sent over the SNMP management link. For more
Enab – Enables sending SNMP trap messages from this unit over any SNMP management link.
Disab – Disables sending SNMP trap messages from this unit over any SNMP management link.
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Configuration Options
SNMP Configuration Options
The SNMP configuration options are divided into two
tables as follows:
•
•
Table C-9
(1 of 4)
General SNMP Configuration Options
System Name:
Next Edit Clear Prev
System Name. Specifies the SNMP system name for this unit. This is the name of this SNMP-managed node.
Edit – Allows you to edit or display the system name.
Clear – Allows you to clear the system name.
System Location:
Next Edit Clear Prev
System Location. Specifies the SNMP system location for this unit. This is the physical location of this SNMP-managed
node.
Edit – Allows you to edit or display the system location.
Clear – Allows you to clear the system location.
System Contact:
Next Edit Clear Prev
System Contact. Specifies the SNMP system contact person for this unit, and how to contact this person.
Edit – Allows you to edit or display the system contact.
Clear – Allows you to clear the system contact.
CommunityName1:public
Next Edit Clear Prev
Community Name 1. 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.
Edit – Allows you to edit or display the first community name. The factory default sets this string to public.
Clear – Allows you to clear the first community name.
Access 1: Read
Next Read R/W Prev
Access 1. 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 when community
name 1 is used. This includes all objects specified as either read-only or read/write in the MIB RFCs.
R/W – Allows read and write access (SNMP Get and Set) to the objects in the MIB for this device when 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.
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C-17
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ACCULINK 336x E1 NTU
Table C-9
(2 of 4)
General SNMP Configuration Options
CommunityName2:
Next Edit Clear Prev
Community Name 2. 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.
Edit – Allows you to edit or display the second community name.
Clear – Allows you to clear the second community name.
Access 2: Read
Next Read R/W Prev
Access 2. 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 when community
name 2 is used. This includes all objects specified as either read-only or read/write in the MIB RFCs.
R/W – Allows read and write access (SNMP Get and Set) to the objects in the MIB for this device when 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.
IP Adr:
Next Edit Clear Prev
IP Address for the E1 NTU. Specifies the IP address needed to access the E1 NTU. Since this IP Address is not bound to
a particular port, it can be used for remote access via the FDL or EDL (for 2-port and 4-port E1 NTUs) management link.
Edit – Allows you to edit and/or display the IP address for the E1 NTU.
Clear – Allows you to clear the IP address for the E1 NTU. The IP address is set to 000.000.000.000.
NetMask:
Next Edit Clear Prev
Subnet Mask for the E1 NTU. Specifies the subnet mask needed to access the E1 NTU. Since this subnet mask is not
bound to a particular port, it can be used for remote access via the FDL or EDL (for 2-port and 4-port E1 NTUs)
management link.
Edit – Allows you to edit and/or display the subnet mask for the E1 NTU.
Clear – Allows you to clear the subnet mask for the E1 NTU. 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).
C-18
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Configuration Options
Table C-9
(3 of 4)
General SNMP Configuration Options
Com IP Adr:
Next Edit Clear Prev
Com Port IP Address. Specifies the IP address for the communication port when it is configured as the SNMP
management link. The IP address is only in effect when the Com Use configuration option is set to SNMP or Daisy.
Edit – 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.
Com NetMask:
Next Edit Clear Prev
Subnet Mask for the Communication Port. Specifies the subnet mask needed to access the unit when the communication
port is configured as the SNMP management link. The subnet mask is only in effect when the Com Use configuration
option is set to SNMP or Daisy.
Edit – Allows you to edit and/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: PPP
Next PPP SLIP Prev
Com Port Link Layer Protocol. Specifies the link layer protocol for the communication port when it is configured as the
SNMP management link. This protocol is only in effect when the Com Use configuration option is set to SNMP.
PPP – Specifies PPP as the link layer protocol for the SNMP management link on the communication port.
SLIP – Specifies SLIP as the link layer protocol for the SNMP 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
Com Use configuration option is set to Daisy.
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ACCULINK 336x E1 NTU
Table C-9
(4 of 4)
General SNMP Configuration Options
Aux IP Adr:
Next Edit Clear Prev
IP Address for the Auxiliary Port. Specifies the IP address needed to access the unit when the auxiliary port is configured
as the SNMP management link. The IP address is only in effect when the Aux Use configuration option is set to SNMP or
Daisy. The auxiliary port only supports the PPP link protocol.
Edit – Allows you to edit and/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.
Aux NetMask:
Next Edit Clear Prev
Subnet Mask for the Auxiliary Port. Specifies the subnet mask needed to access the unit when the auxiliary port is
configured as the SNMP management link. The subnet mask is only in effect when the Aux Use configuration option is
set to SNMP or Daisy.
Edit – Allows you to edit and/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).
Def Netwk: None
Next None Com Aux FDL EDL1 EDL2 EDL3 EDL4 Prev
Default Network Destination. Specifies the default network destination. This configuration option 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 33xx 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 Com Use
configuration option is set to SNMP.
Aux – The default network destination is the auxiliary port. This selection only appears if the Aux Use configuration option
is set to SNMP.
FDL – The default network destination is FDL. This selection only appears if the FDL management link is enabled for
SNMP.
EDLn – For 2-port and 4-port E1 NTUs, the default network destination is the EDLn port (where n is 1–4). This selection
only appears in 2-port and 4-port E1 NTUs if the synchronous data port’s EDL management link is enabled for SNMP.
NOTE: If the chosen default network link is disabled or down, data is discarded. Return to this menu and choose another
default network.
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Configuration Options
Table C-10
(1 of 2)
SNMP Trap Configuration Options
Num Trap Mgrs: 1
Next
1
2
3
4
5
6
Prev
Number of Trap Managers. 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.
Trapn IP Adr:
Next Edit Clear Prev
Trap n IP Address. Specifies the IP address for each trap manager. This configuration option is repeated for all trap
managers supported by the unit.
Edit – 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.
Trapn Dst: None
Next None Com Aux FDL EDL1 EDL2 EDL3 EDL4 Prev
Trap Manager n Destination. 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 Manage n network destination. Traps are discarded.
Com – The Trap Manager n network destination is the communication port. This selection only appears if the Com Use
configuration option is set to SNMP or Daisy.
Aux – The Trap Manager n network destination is the auxiliary port. This selection only appears if the Aux Use
configuration option is set to SNMP 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 for SNMP.
EDLn – The Trap Manager n network destination is the EDLn port (where n is 1–4). This selection only appears if the
synchronous data port’s EDL management link is enabled for SNMP.
NOTE: If the chosen destination link is disabled or down, the traps are discarded. Return to this menu and choose
another destination.
Gen Trap: Both
Next Disab Warm Auth Both Prev
General Trap Types. Specifies the general trap types to enable. For more information, refer to the SNMP Traps section in
Chapter 4, Maintenance.
Disab – 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).
Auth – 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 Trap configuration option (in the Alarm Configuration
3360-A2-GB20-20
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ACCULINK 336x E1 NTU
Table C-10
(2 of 2)
SNMP Trap Configuration Options
Entp Trap: Enab
Next Enab Disab Prev
Enterprise Specific Traps. Specifies whether enterpriseSpecific traps are enabled. For more information, refer to the
Enab – Sends trap messages for enterpriseSpecific events to the currently configured trap manager(s).
Disab – Disables the sending of trap messages for enterpriseSpecific events.
NOTE: This configuration option is not available if the SNMP Trap configuration option (in the Alarm Configuration
Link Trap: Both
Next Disab Up Down Both Prev
Link Trap Type. Specifies the link trap type to enable. Interfaces monitored for linkUp and linkDown traps are specified
with the Trap I/F configuration option. For more information, refer to the SNMP Traps section in Chapter 4, Maintenance.
Disab – 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 Trap configuration option (in the Alarm Configuration
Trap I/F: All
Next NET DTE E1s Ports All Prev
Link Trap Interfaces. Specifies which interfaces generate linkUp and linkDown trap messages. These traps are supported
on the E1 interfaces (network and G.703 DTE) and the synchronous data ports.
NET – Sends trap messages for linkUp, linkDown, enterpriseTestStart, or enterpriseTestClear events occurring on the
network interface.
DTE – Sends trap messages for linkUp, linkDown, enterpriseTestStart, or enterpriseTestClear events occurring on the
G.703 DTE interface. This selection is not displayed if the G.703 DTE interface is disabled.
E1s – Sends trap messages for linkUp, linkDown, enterpriseTestStart, or enterpriseTestClear events occurring on either
the network or G.703 DTE interface.
Ports – Sends trap messages for linkUp, linkDown, enterpriseTestStart, or enterpriseTestClear events occurring on the
synchronous data ports.
All – Sends trap messages for linkUp, linkDown, enterpriseTestStart, or enterpriseTestClear events occurring on the
network interface, G.703 DTE interface, or the synchronous data ports.
NOTE: This configuration option is not available if the Link Trap configuration option is not configured to generate trap
messages for linkUp or linkDown events.
C-22
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Configuration Options
Configuration Worksheets
This section contains one set of blank worksheets to be
used when configuring your E1 NTU in the network. It is
recommended that you copy these blank worksheets
before using them.
DTE Options
DTE Port
Value
User Options
Self-Test
Value
Enab, Disab
Enab, Disab
CRC4, noCRC
AMI, HDB3
Com Use
Com Type
Com Clk
SNMP, ASCII, Daisy
Async, Sync
Int, Ext
DTE Frame
DTE Coding
Extrn DLB
Enab, Disab
Enab, Disab
Com Rate
Char Length
CParity
1.2, 2.4, 4.8, 9.6, 14.4, 19.2, 38.4
7, 8
Send Ones
None, Even, Odd
1, 1.5, 2
CStop Bits
Ignore DTR
Aux Use
Yes, No
Net Options
HDSL Mode
NET Frame
Mgmt Link
HDSL
Value
None, SNMP, Daisy
9.6, 14.4, 19.2, 38.4
NTU, LTU
Aux Rate
CRC4, noCRC
Disab, SNMP
Disab, Maint
Edit, Clear
Alarm
Options
Circuit Ident
Value
Alrm Msg
Enab, Disab
Enab, Disab
SNMP Trap
General
Options
Value
Pri Clk Src
Sec Clk Src
Clock Rate
NET, DTE, Prt1, Prt2, Prt3, Prt4, Int,
Ext
NET, DTE, Prt1, Prt2, Prt3, Prt4, Ext,
Disab
2048, 8
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C-23
ACCULINK 336x E1 NTU
Prt1 Options
Value
Prt3 Options
Port Type
NetDCLB
Port LB
Value
E530, V.35, RS449, X.21
Enab, Disab
Port Type
NetDCLB
Port LB
E530, V.35, RS449, X.21
Enab, Disab
Disab, DTLB, DCLB, Both
Disab, DTR, RTS, Both
None, Halt
Disab, DTLB, DCLB, Both
Disab, DTR, RTS, Both
None, Halt
All Ones
Rcv RAI
Tx Clock
InvertTxC
InvrtData
EDL
All Ones
Rcv Yellow
Tx Clock
InvertTxC
InvrtData
EDL
Int, Ext
Int, Ext
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Err Rate
10E–4, 10E–5, 10E–6, 10E–7, 10E–8,
10E–9
Err Rate
10E–4, 10E–5, 10E–6, 10E–7, 10E–8,
10E–9
Near-end
Far-end
Disab, Maint, Send, Both
Disab, Maint
Near-end
Far-end
Disab, Maint, Send, Both
Disab, Maint
Mgmt Link
Disab, SNMP
Mgmt Link
Disab, SNMP
Prt2 Options
Port Type
NetDCLB
Port LB
Value
E530, V.35, RS449, X.21
Enab, Disab
Prt4 Options
Port Type
NetDCLB
Port LB
Value
E530, V.35, RS449, X.21
Enab, Disab
Disab, DTLB, DCLB, Both
Disab, DTR, RTS, Both
None, Halt
Disab, DTLB, DCLB, Both
Disab, DTR, RTS, Both
None, Halt
All Ones
Rcv Yellow
Tx Clock
InvertTxC
InvrtData
EDL
All Ones
Rcv Yellow
Tx Clock
InvertTxC
InvrtData
EDL
Int, Ext
Int, Ext
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Enab, Disab
Err Rate
10E–4, 10E–5, 10E–6, 10E–7, 10E–8,
10E–9
Err Rate
10E–4, 10E–5, 10E–6, 10E–7, 10E–8,
10E–9
Near-end
Far-end
Disab, Maint, Send, Both
Disab, Maint
Near-end
Far-end
Disab, Maint, Send, Both
Disab, Maint
Mgmt Link
Disab, SNMP
Mgmt Link
Disab, SNMP
C-24
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3360-A2-GB20-20
Configuration Options
Network Interface
Network Channel Allocation
G.703 DTE Interface
G.703 Channel Allocation
N1
N2
N3
N4
N5
N6
N7
N8
N9
D1
D2
D3
D4
D5
D6
D7
D8
D9
N10
N11
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
N12
N13
N14
N15
N16
N17
N18
N19
N20
N21
N22
N23
N24
N25
N26
N27
N28
N29
N30
N31
Allocations
Allocations
D1 – D31 indicates allocation to DTE
(G.703) channels.
N1 – N31 indicates allocation to network
channels.
Prt1 – Prt4 indicates allocation to
synchronous data ports.
Prt1 – Prt4 indicates allocation to
synchronous data ports.
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C-25
ACCULINK 336x E1 NTU
Port Chan
Conf
Options
Value
Assign To
Assign By
NET, DTE, Prt2, Prt3, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 1
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Assign To
Assign By
NET, DTE, Prt1, Prt3, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 2
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
C-26
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3360-A2-GB20-20
Configuration Options
Port Chan
Conf
Options
Value
Assign To
Assign By
NET, DTE, Prt1, Prt2, Prt4
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 3
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
Assign To
Assign By
NET, DTE, Prt1, Prt2, Prt3
Block, Chan
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, 1600, 1664,
1728, 1792, 1856, 1920, 1984
NOTE: If time-slot 16 is reserved for signaling, the
If Assign By Block
If Assign By Chan
Port 4
highest port rate (1984) does not appear.
Start At
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select One)
Time Slot (Nn or Dn): 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11,
12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25,
26, 27, 28, 29, 30, 31 (Select Multiple)
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C-27
ACCULINK 336x E1 NTU
General SNMP
Options
SNMP Trap
Options
Value
Value
System Name
System Location
System Contact
CommunityName1
Access 1
Edit, Clear
Edit, Clear
Edit, Clear
Edit, Clear
Read, R/W
Edit, Clear
Read, R/W
Edit, Clear
Edit, Clear
Edit, Clear
Edit, Clear
PPP, SLIP
Edit, Clear
Edit, Clear
Num Trap Mgrs
Trapn IP Adr
Trapn Dst
1, 2, 3, 4, 5, 6
Edit, Clear
None, Com, Aux, FDL, EDL1,
EDL2, EDL3, EDL4
Gen Trap
Entp Trap
Link Trap
Trap I/F
Disab, Warm, Auth, Both
Enab, Disab
CommunityName2
Access 2
Disab, Up, Down, Both
NET, DTE, E1s, Ports, All
IP Adr
NetMask
Com IP Adr
Com NetMask
Com Link
Aux IP Adr
Aux NetMask
None, Com, Aux, FDL, EDL1,
EDL2, EDL3, EDL4
Def Netwk
C-28
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3360-A2-GB20-20
Pin Assignments
D
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
HDSL Network Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
G.703 DTE Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-2
AUX Port Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-3
COM Port Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-4
EIA 530A Port Interface Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-6
EIA 530A-to-RS449 Cable Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-7
EIA 530A-to-V.35 Cable Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-9
EIA 530A-to-X.21 Cable Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-11
Power Input Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-13
Optional DC Power Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-13
External Clock Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-14
Overview
HDSL Network Interface
The E1 NTU is shipped with a power module. Various
other interconnecting cables are available from the
company. For cable feature numbers, refer to Appendix H,
assignments for the E1 NTU, Paradyne cables, and
customer-supplied cables.
The HDSL Network interface is an 8-position, unkeyed
Table D-1
HDSL Network Connector
Signal
Pin Number
Loop 2 Ring
Loop 2 Tip
Unused
1
2
3
4
5
6
7
8
Loop 1 Ring
Loop 1 Tip
Unused
Unused
Unused
3360-A2-GB20-20
December 1996
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D-1
ACCULINK 336x E1 NTU
G.703 DTE Interface
Table D-2
G.703 DTE Connector (120 Ohm)
The G.703 DTE interface is either two BNC
connectors (Transmit and Receive) for a 75 ohm
unbalanced interface, or a DB15-type socket connector
information about using Relay Contact Sense for external
DTE loopback, refer to the Extrn DLB configuration
of Appendix C.
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
supplied by a DTE vendor. It is made of shielded
twisted-pair wires (22 AWG). The cable connector is a
DB15 plug. Be sure to connect the shield ground only at
the E1 NTU end to prevent ground loops.
Figure D-1. G.703 DTE Cable
D-2
December 1996
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3360-A2-GB20-20
Pin Assignments
AUX Port Interface
NOTE
The Auxiliary (AUX) port connects to the SNMP LAN
Adapter for SNMP applications, or to another E1 NTU’s
COM port for daisy chain connectivity. (The SNMP LAN
Adapter includes the cable that is needed to attach it to
the E1 NTU.) The AUX port connector is an 8-pin
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
Direction
From NTU
To NTU
Signal
DTE Transmit Clock
DTE Receive Data
Signal Ground
Pin Number
1
2
3
4
8
—
DTE Transmit Data
DTE Receive Clock
From NTU
From NTU
3360-A2-GB20-20
December 1996
D-3
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ACCULINK 336x E1 NTU
COM Port Interface
NOTE
The COM port connects to a PC for front panel
emulation, to an ASCII terminal or printer for alarms, to a
network device (e.g., a router) for SNMP applications, to
the SNMP LAN Adapter for SNMP applications, or to
another E1 NTU’s AUX port for daisy chain connectivity.
(The SNMP LAN Adapter includes the cable that is
needed to attach it to the E1 NTU.) The COM port
connector is an 8-position keyed modular connector
a DTE interface.
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
the COM port-to-terminal/printer cable is shown in
parameters have been
negotiated for the link layer.
Table D-4
COM Port Connector
Direction
From NTU
From NTU
—
Signal
DCE Transmit Clock
DCE Receive Data
Signal Ground
Pin Number
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 NTU
To NTU
From NTU
To NTU
From NTU
D-4
December 1996
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ACCULINK 336x E1 NTU
EIA 530A Port Interface
Connector
The EIA 530A Port interface connector information is
Table D-5
EIA 530A Port Interface Connector
Circuit
Mnemonic
CCITT
Number
Signal
Direction
Pin
Shield
—
AB
AC
BA
—
—
—
—
1
7
Signal Common
Signal Common
Transmitted Data
102A
102B
103
23
To NTU
2 (A)
14 (B)
Received Data
Request-to-Send
Clear-to-Send
BB
CA
CB
CF
104
105
106
109
From NTU
To NTU
3 (A)
16 (B)
4 (A)
19 (B)
From NTU
From NTU
5 (A)
13 (B)
Received Line Signal Detector
8 (A)
10 (B)
DCE Ready
CC
CD
DA
107
108/1, /2
113
From NTU
To NTU
6
DTE Ready
20
Transmit Signal Element Timing (DTE Source)
To NTU
11 (B)
24 (A)
Transmit Signal Element Timing (DCE Source)
Receiver Signal Element Timing (DCE Source)
DB
DD
114
115
From NTU
From NTU
12 (B)
15 (A)
17 (A)
9 (B)
Local Loopback
Remote Loopback
Test Mode
LL
RL
TM
141
140
142
To NTU
18
21
25
To NTU
From NTU
D-6
December 1996
3360-A2-GB20-20
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Pin Assignments
EIA 530A-to-RS449
Cable 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-4. EIA 530A-to-RS449 Cable
3360-A2-GB20-20
December 1996
D-7
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ACCULINK 336x E1 NTU
Table D-6
RS449 Cable Interface
Circuit
Mnemonic
CCITT
Number
Signal
Direction
Pin
Shield
—
—
102A
102B
—
—
—
—
—
1
Signal Ground
Receive Ground
Send Common
Send Data
SG
RC
SC
SD
19
20
37
103
To NTU
4 (A)
22 (B)
Receive Data
Request-to-Send
Clear-to-Send
Receiver Ready
Data Mode
RD
RS
CS
RR
DM
TR
TT
104
105
From NTU
To NTU
6 (A)
24 (B)
7 (A)
25 (B)
106
From NTU
From NTU
From NTU
To NTU
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 NTU
17 (A)
35 (B)
ST
RT
114
From NTU
From NTU
5 (A)
23 (B)
Receive Timing
115
8 (A)
26 (B)
Local Loopback
Remote Loopback
Test Mode
LL
RL
TM
141
140
142
To NTU
10
14
18
To NTU
From NTU
D-8
December 1996
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Pin Assignments
EIA 530A-to-V.35
Cable Interface
530 DB25
SIGNAL PLUG
V.35
SIGNAL
MS34
SOCKET
SHIELD
TD-A
1
2
A
P
SHIELD
TD-A
TD-B
RD-A
RD-B
TXC-A
TXC-B
RXC-A
RXC-B
RTS
TD-B
14
3
S
RD-A
R
T
RD-B
16
15
12
17
9
TXC-A
TXC-B
RXC-A
RXC-B
RTS
Y
AA
V
X
4
C
D
F
CTS
5
CTS
RLSD
DSR
8
RLSD
DSR
6
E
SIG. COMMON
TT-A
7
B
SIG. COMMON
TT-A
24
11
20
21
18
25
U
W
H
N
L
TT-B
TT-B
DTR
DTR
RL
RL
LL
LL
TM
NN
TM
495-14324-01
Figure D-5. EIA 530A-to-V.35 Cable
3360-A2-GB20-20
December 1996
D-9
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ACCULINK 336x E1 NTU
Table D-7
V.35 Cable Interface
CCITT
Number
Signal
Direction
Pin
Shield
—
—
—
A
B
Signal Common
Transmitted Data
102
103
To NTU
P (A)
S (B)
Received Data
104
From NTU
R (A)
T (B)
Request-to-Send
Clear-to-Send
105
106
To NTU
C
D
F
From NTU
From NTU
From NTU
To NTU
Data Channel Received Line Signal Detector
Data Set Ready
109
107
E
H
Data Terminal Ready
108/1, /2
113
Transmit Signal Element Timing (DTE Source)
To NTU
U (A)
W (B)
Transmit Signal Element Timing (DCE Source)
Receiver Signal Element Timing (DCE Source)
114
115
From NTU
From NTU
Y (A)
AA (B)
V (A)
X (B)
Local Loopback
141
140
142
To NTU
L
N
Loopback/Maintenance
Test Indicator
To NTU
From NTU
NN
D-10
December 1996
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Pin Assignments
EIA 530A-to-X.21
Cable Interface
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-6. EIA 530A-to-X.21 Cable
3360-A2-GB20-20
December 1996
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D-11
ACCULINK 336x E1 NTU
Table D-8
X.21 Cable Interface
CCITT
Number
Signal
Direction
Pin
Signal Common
Transmitted Data
102
103
—
8
To NTU
2 (A)
9 (B)
Received Data
104
105
109
113
115
From NTU
To NTU
4 (A)
11 (B)
Request-to-Send
3 (A)
10 (B)
Data Channel Received Line Signal Detector
Transmit Signal Element Timing (DTE Source)
Receiver Signal Element Timing (DCE Source)
From NTU
To NTU
5 (A)
12 (B)
7 (A)
14 (B)
From NTU
6 (A)
13 (B)
D-12
December 1996
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Pin Assignments
Power Input Connector
Optional DC Power Cable
The input power connector leads are shown in
The power cable is a 14.5-foot, 18 AWG stranded
cable. The connector is terminated at one end with a
6-position connector. The other end of the cable is
terminated with a bare wire that should be connected to a
power source can be either a single source of +24 Vdc or
up to two sources of –48 Vdc (A and B). You cannot
connect +24 Vdc and –48 Vdc to the same unit. See the
Table D-9
DC Power Connector
Signal
Pin Number
–48 Vdc Return
1, 2
6
–48 Vdc A
–48 Vdc B
5
+24 Vdc
5
+24 Vdc Return
Chassis Ground
4
3
Figure D-7. DC Power Cable
3360-A2-GB20-20
December 1996
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D-13
ACCULINK 336x E1 NTU
External Clock Interface
The External Clock connector pinouts are in
Table D-10
External Clock Connector
Signal
Pin Number
customer-supplied cable.
Shield
1
2
Clock (+) (RS422 only)
Clock (–) (RS422 only)
Clock In (RS423 only)
Signal Common
3
9
11
Figure D-8. External Clock Connector
D-14
December 1996
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SNMP MIB Objects
E
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-1
Management Information Base (MIB) II (RFC 1213) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-1
System Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-2
Interface Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-2
IP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-5
ICMP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-7
UDP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-7
Transmission Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-7
SNMP Group, MIB II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-7
DS1/E1 MIB (RFC 1406) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-8
Near End Group, DS1/E1 MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-8
Far End Group, DS1/E1 MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-10
The DS1 Fractional Group, DS1/E1 MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-10
RS-232-like MIB (RFC 1317) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-11
General Port Table, RS-232-like MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-11
Asynchronous Port Table, RS-232-like MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-12
Synchronous Port Table, RS-232-like MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-13
Input Signal Table, RS-232-like MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-13
Output Signal Table, RS-232-like MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-13
Generic-Interface Extension MIB (RFC 1229) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-13
Generic Interface Test Table, Generic Interface MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-14
Paradyne Enterprise MIB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-15
Correlation between Menu Commands and SNMP Objects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E-16
the implementation of the E1 NTU. The MIB II object
groups supported or not supported by the 33xx Series
devices are as follows:
Overview
This appendix describes the Management Information
Base (MIB) objects that are supported by the E1 NTU and
provides a correlation between front panel commands and
MIB objects (Table E-1).
System Group Supported.
Interface
Group
Supported for the network
interface, the G.703 DTE 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.
Management Information
Base (MIB) II (RFC 1213)
The objects defined by MIB II are organized into
10 different groups. The E1 NTU implements only those
groups where the semantics of the group are applicable to
Address
Translation
Group
Not supported since this group is
not supported in MIB II.
3360-A2-GB20-20
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E-1
ACCULINK 336x E1 NTU
System Group – “sysObjectID” Object
(system 2)
IP Group
Supported.
ICMP Group Supported.
This object provides the authoritative identification of
the network management subsystem contained in the unit.
This object displays the following object identifier:
TCP Group
Not supported since the TCP
protocol is not supported by the
E1 NTU.
UDP Group
EGP Group
Supported.
3360
3364
3365
1.3.6.1.4.1.74.1.14.2.3.2
1.3.6.1.4.1.74.1.14.2.3.3
1.3.6.1.4.1.74.1.14.2.3.4
Not supported since the EGP
protocol is not supported by the
E1 NTU.
Transmission Supported on the E1 interfaces
System Group – “sysServices” Object
(system 7)
Group
using the DS1/E1 MIB. Supported
on the synchronous data ports
using the RS-232-like MIB.
This object provides a value which indicates the set of
services that are potentially offered by the E1 NTU. Only
the following values are supported by the E1 NTU.
Supported on the COM and AUX
ports using the RS-232-like MIB.
SNMP Group Supported.
•
•
•
•
physical(1) – Layer 1 functionality for all
interfaces.
System Group, MIB II
datalink/subnetwork(2) – Layer 2 functionality
(SLIP, PPP) for the COM and AUX ports.
The System Group objects are fully supported by the
E1 NTU. 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 E1 NTU. Objects not mentioned are
supported as stated in the MIB.
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).
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 for 2-port and 4-port
E1 NTUs (1-port E1 NTUs do not have H/W CCA2):
Interface Group, MIB II
The Interface Group consists of an object indicating the
number of interfaces supported by the unit and an
E1 HDSL NTU; model: xxxx-xx-xxx; S/W Release:
yy.yy.yy; H/W CCA1: zzzz-zzz; H/W CCA2: zzzz-zzz;
H/W CCA3: zzzz-zzz; Serial number: sssssss.
interface table containing an entry for each interface. The
E1 NTU provides an entry in the interface table for the
network interface, the G.703 DTE interface, each of the
synchronous data ports (1, 2, or 4 depending on the
model), the COM port, and the AUX port, if they apply.
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 E1 NTU.
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 numbers of the unit.
Interface Group – “ifNumber” Object
(interfaces 1)
sssssss represents the serial number of
the unit.
This variable contains the maximum number of MIB II
supported interfaces possible across the 33xx 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 33xx Series models.
E-2
December 1996
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3360-A2-GB20-20
SNMP MIB Objects
The supported ifIndexes for the 3365 NTU are:
Interface Group – “ifIndex” Object (ifEntry 1)
•
•
•
•
•
Net E1
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.
DTE E1
COM port
Auxiliary RS-232 port
DCE port 1
The following are the values of the ifIndexes for all
33xx Series models:
•
•
•
•
•
•
•
•
•
1 – Net E1
Interface Group – “ifDescr” Object (ifEntry 2)
2 – DTE E1
This object provides the textual information about the
interface. Each interface displays a text string as shown
below:
3 – COM port
4 – (not used)
5 – Auxiliary RS-232 port
6 – DCE port 1
7 – DCE port 2
8 – DCE port 3
9 – DCE port 4
Network E1:
DTE E1:
COM:
“Network E1. E1 HDSL NTU,
Hardware Version: [CCA number
for the CSU board]”.
“DTE E1. E1 HDSL NTU,
Hardware Version: [CCA number
for the CSU board]”.
“COM port. E1 HDSL NTU,
Hardware Version: [CCA number
for the CSU board]”.
The supported ifIndexes for the 3360 NTU are:
AUX:
“AUX port. E1 HDSL NTU,
Hardware Version: [CCA number
for the CSU board]”.
•
•
•
•
•
•
Net E1
DTE E1
Data Ports:
“Data Port n. E1 HDSL NTU,
Hardware Version: [CCA number
for the DSU board]” (where n is 1
to 4).
COM port
Auxiliary RS-232 port
DCE port 1
DCE port 2
Interface Group – “ifType” Object (ifEntry 3)
The supported ifIndexes for the 3364 NTU are:
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 E1 NTU:
•
•
•
•
•
•
•
•
Net E1
DTE E1
COM port
•
e1(19) – Used for the network and G.703 DTE
interfaces.
Auxiliary RS-232 port
DCE port 1
DCE port 2
DCE port 3
DCE port 4
•
propPointToPointSerial(22) – Used for the
synchronous data ports, and for the COM port when
the port is not configured as the SNMP
management interface.
•
•
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.
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E-3
ACCULINK 336x E1 NTU
Interface Group – “ifMtu” Object (ifEntry 4)
Interface Group – “ifOperStatus” Object
(ifEntry 8)
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.
This object specifies the current operational state of the
interface. The value of this object for each interface is
defined as follows:
Network E1:
The interface is up(1) when no
alarm conditions exist.
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:
The interface is down(2) when an
alarm condition is active.
The interface is testing(3) when a
test is active on the interface.
E1 Interfaces:
2,048,000 bps.
DTE E1:
The interface is up(1) when no
alarm conditions exist and the
interface is enabled.
COM and
AUX:
The currently configured data rate
for the port.
The interface is down(2) when an
alarm condition is active or the
interface is disabled.
Data Ports:
The currently configured data rate
for the port when the port is
allocated to one of the E1
interfaces or to another port as a
backup. If the port is not allocated
the data rate is defined as zero.
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).
Interface Group – “ifAdminStatus” Object
(ifEntry 7)
The interface is never in the
testing(3) state.
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. The value of this
object will not affect the state of any of the interfaces on
the E1 NTU other than the COM port. Only the following
values are supported by the E1 NTU:
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.
•
up(1) – The SNMP management link is active on
the COM port.
The interface is up(1) when the
port is assigned to the E1 interface
or another data port as a backup,
and both CTS and DSR are ON.
•
testing(3) – The SNMP management link is inactive
on the COM port; the COM port can be used for
proprietary ASCII functions.
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.
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3360-A2-GB20-20
SNMP MIB Objects
Interface Group – “ifLastChange” Object
(ifEntry 9)
IP Group, MIB II
The IP Group objects are supported by the E1 NTU for
all data paths which currently are configured to carry IP
data to or from the E1 NTU, 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 E1 NTU 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 E1 NTU.
This object contains the value of “sysUpTime” at the
time the interface entered its current operational state. For
the E1 NTU, this object is only updated for the “up” and
“down” states. This is done since the “testing” state is not
mutually exclusive with the “up” and “down” states.
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:
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 E1 NTU.
•
•
•
•
•
•
ifInOctets (ifEntry 10)
•
forwarding(1) – The unit is acting as a gateway.
ifInUcastPkts (ifEntry 11)
ifInNUcastPkts (ifEntry 12)
ifInDiscards (ifEntry 13)
ifInErrors (ifEntry 14)
IP Group – “ipAddrTable” Object (ip 20)
The address table is supported by the E1 NTU.
ifInUnknownProtos (ifEntry 15)
IP Group – “ipAdEntAddr” Object
(ipAddrEntry 1)
Interface Group – Output Counters
(objects ifEntry 16 to ifEntry 21)
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.
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:
IP Group – “ipAdEntIfIndex” Object
(ipAddrEntry 2)
•
•
•
•
•
•
ifOutOctets (ifEntry 16)
ifOutUcastPkts (ifEntry 17)
ifOutNUcastPkts (ifEntry 18)
ifOutDiscards (ifEntry 19)
ifOutErrors (ifEntry 20)
ifOutQLen (ifEntry 21)
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.
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E-5
ACCULINK 336x E1 NTU
The following read-only objects must not be specified
in the set PDU used to add a route.
IP Group – “ipRouteTable” Object (ip 21)
The routing table used by the E1 NTU 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 E1 NTU. 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.
•
•
•
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)
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
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 is
treated as described in RFC 1354 (IP Forwarding Table
MIB):
(“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:
“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.”
•
•
ipRouteDest
ipRouteIfIndex
The following objects are defaulted if not specified in
the set PDU used to add a route.
IP Group – “ipRouteIfIndex” Object
(ipRouteEntry 1)
•
•
ipRouteMetric1 – Defaulted to 1 hop.
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.
ipRouteMetric2 – Defaulted to –1 for standalone
devices.
•
•
ipRouteType – Defaulted to indirect.
ipRouteMask – Defaulted as specified in the MIB
description.
When setting this object via SNMP, the ipRouteIfIndex
value can only assume an appropriate value of ifIndex
defined for the particular device type.
The following objects are unused in the E1 NTU and
setting them will have no effect on the operation of the IP
implementation.
IP Group – “ipRouteMetric2” Object
(ipRouteEntry 4)
•
ipRouteMetric3, ipRouteMetric4, ipRouteMetric5 –
Defaulted to –1 as specified in the MIB.
For standalone devices, ipRouteMetric2 is not used and
contains –1.
•
ipRouteNextHop – Defaulted to 0.0.0.0.
When adding a route to the routing table using SNMP,
do not specify a value for ipRouteMetric2.
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3360-A2-GB20-20
SNMP MIB Objects
IP Group – “ipRouteProto” Object
(ipRouteEntry 9)
Transmission Group, MIB II
Objects in the transmission group are supported on the
network and G.703 DTE 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 E1 NTU.
This object is a read-only object and may have the
following values in the E1 NTU.
•
•
other(1) – Temporary route added by IP.
local(2) – Route added or modified as a result of
user configuration via the front panel.
•
ds1 (transmission 18) – The transmission object
supported on the E1 interfaces.
•
•
•
netmgmt(3) – Route added or modified by means of
an SNMP set.
•
rs232 (transmission 33) – The transmission object
supported on the synchronous data ports, COM
port, and AUX port.
icmp(4) – Route added or modified by Internet
Control Management Protocol (ICMP).
rip(8) – Route added or modified by the Routing
Information Protocol (RIP) or similar proprietary
protocol.
The “ds1” transmission object is defined by the
DS1/E1 MIB. The rs232 transmission object is defined by
the RS-232-like MIB.
IP Group – “ipRouteAge” Object
(ipRouteEntry 10)
SNMP Group, MIB II
The SNMP Group objects that apply to a management
agent are fully supported by the E1 NTU. The following
objects apply only to an NMS and return a zero value if
accessed.
This object is implemented as a read-only object in the
E1 NTU. In the E1 NTU, it reflects the value of the
route’s time-to-live (in seconds). When displayed, 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.
•
•
•
•
•
•
•
•
•
•
•
snmpInTooBigs (snmp 8)
snmpInNoSuchNames (snmp 9)
snmpInBadValues (snmp 10)
snmpInReadOnlys (snmp 11)
snmpInGenErrs (snmp 12)
ICMP Group, MIB II
snmpInGetResponses (snmp 18)
snmpInTraps (snmp19)
The ICMP Group objects are fully supported by the E1
NTU.
snmpOutGetRequests (snmp 25)
snmpOutGetNexts (snmp 26)
snmpOutSetRequests (snmp 27)
snmpOutGetResponses (snmp 28)
UDP Group, MIB II
The User Datagram Protocol (UDP) Group objects are
fully supported by the E1 NTU.
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E-7
ACCULINK 336x E1 NTU
Near End Group – “dsx1LineType” Object
(dsx1ConfigEntry 5)
DS1/E1 MIB (RFC 1406)
The “ds1” object defined by RFC 1406 is supported for
both the network and G.703 DTE interfaces. The DS1
Near End Group and DS1 Fractional Group are supported
for both interfaces. The DS1 Far End Group is not
supported.
This object corresponds to the NET Framing/DTE
Framing configuration options for the E1 interfaces on the
E1 NTU. Only the following values are supported by the
E1 NTU.
•
•
dsx1E1(4) – Indicates non-CRC-4 framing.
dsx1E1-CRC(5) – Indicates CRC-4 framing.
Near End Group, DS1/E1 MIB
The DS1 Near End Group consists of the following
four tables:
Near End Group – “dsx1LineCoding” Object
(dsx1ConfigEntry 6)
•
•
•
•
DS1 Configuration
DS1 Current
DS1 Interval
DS1 Total
This object corresponds to the DTE Coding
configuration option on the E1 NTU. Only the following
values are supported by the E1 NTU.
•
•
dsx1HDB3(3) – Indicates HDB3 line coding.
All four tables are fully supported for the network
interface. Since statistics are not kept for the G.703 DTE
interface, only the DS1 Configuration table is fully
supported. The “statistic” objects for the G.703 DTE
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 E1 NTU.
dsx1AMI(5) – Indicates AMI line coding (for DTE
only, not available for NET).
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 G.703 DTE interface. Only the following values
are supported by the E1 NTU.
Near End Group – “dsx1TimeElapsed” Object
(dsx1ConfigEntry 3)
•
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 G.703 DTE interface.
Applies to the network interface only. An error status is
returned if access is attempted for the G.703 DTE
interface.
•
dsx1SendOtherTestPattern(8) – Specifies that the
network interface is sending a 1-in-8 or a 32767 test
pattern. This value is read-only. An attempt to write
this value returns a badValue response.
Near End Group – “dsx1ValidIntervals” Object
(dsx1ConfigEntry 4)
Applies to the network interface only. An error status is
returned if access is attempted for the G.703 DTE
interface.
Near End Group – “dsx1CircuitIdentifier” Object
(dsx1ConfigEntry 8)
This object is only supported on the network interface.
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3360-A2-GB20-20
SNMP MIB Objects
Near End Group – “dsx1LoopbackConfig”
Object (dsx1ConfigEntry 9)
Near End Group – “dsx1SignalMode” Object
(dsx1ConfigEntry 11)
This object specifies the loopback state of the E1
interfaces. Only the following values are supported by the
E1 NTU.
This object specifies whether time-slot 16 (TS16) is
reserved for signaling. Only the following values are
supported by the E1 NTU.
•
dsx1NoLoop(1) – The E1 interface is not in a
loopback state.
•
•
•
none(1) – No signaling is being used on this
interface.
•
dsx1PayloadLoop(2) – Specifies that a Payload
Loopback (PLB) is active for the network interface
or a Repeater Loopback (RLB) is active for the
G.703 DTE interface.
bitOriented(3) – Indicates that TS16 is using
Channel-Associated Signaling.
messageOriented(4) – Indicates that TS16 is
reserved for signaling.
•
dsx1LineLoop(3) – Specifies that a Line Loopback
(LLB) is active for the network interface or a DTE
Loopback (DLB) is active for the G.703 DTE
interface.
Changing from none(1) to bitOriented(3) or
messageOriented(4) deallocates all DS0 channels on the
G.703 DTE and network interfaces.
Near End Group – “dsx1TransmitClockSource”
Object (dsx1ConfigEntry 12)
Near End Group – “dsx1LineStatus” Object
(dsx1ConfigEntry 10)
This object specifies the timing source for the currently
active transmit clock for this E1 interface. This may be
either the primary clock source, secondary clock source (if
the primary has failed), or the internal clock (if both
primary and secondary have failed). This object differs
from the MIB definition in that it is “read-only” (not
read/write) for E1 NTUs. Only the following values are
supported by the E1 NTU.
This object specifies the line (alarm) status of the E1
interfaces. Only the following values are supported by the
E1 NTU. More than one value may be active at a time.
•
•
dsx1NoAlarm(1) – No alarm present.
dsx1RcvFarEndLOF(2) – A Remote Alarm
Indication (RAI) signal is being received.
•
•
•
•
•
•
•
dsx1RcvAIS(8) – An Alarm Indication Signal
(AIS) is being received.
•
•
•
loopTiming(1) – The recovered receive clock is
being used as the transmit clock.
dsx1LossOfFrame(32) – An Out Of Frame (OOF)
condition has persisted for more that 2.5 seconds.
localTiming(2) – The E1 NTU’s internal clock is
being used as the transmit clock.
dsx1LossOfSignal(64) – A Loss of Signal (LOS)
condition has persisted for more that 2.5 seconds.
ThroughTiming(3) – The recovered receive clock
from another interface (e.g., E1, Port, or External)
is being used as the transmit clock.
dsx1LoopbackState(128) – The near end of the E1
interface is in a loopback state.
dsx1RcvFarEndLOMF(512) – The far end is
sending a Loss of MultiFrame Failure (RMA).
Near End Group – “dsx1Fdl” Object
(dsx1ConfigEntry 13)
dsx1XmtFarEndLOMF(1024) – The near end is
sending a Loss of MultiFrame Failure (MFA).
This object specifies how Facility Data Link is being
used. Only the following values are supported by the
E1 NTU. More than one value may be active at a time.
dsx1Other Failure(4096) – An Excessive Error Rate
(EER) has been detected on the network interface.
•
•
dsx1other(1) – SNMP data is being sent over FDL.
dsx1Fdl-none(8) – Indicates that the device does
not use FDL. This value is always returned for the
G.703 DTE interface. It is also returned for the
network interface when the FDL management link
is disabled.
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E-9
ACCULINK 336x E1 NTU
•
dsx1TotalIndex – The index that identifies the E1
interface.
Near End Group – The DS1 Current Table
Objects (dsx1CurrentEntry)
•
•
dsx1TotalESs – The 24-hour total Errored Seconds.
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.
dsx1Total SESs – The 24-hour total Severely
Errored Seconds.
•
•
dsx1TotalUASs – The 24-hour total Unavailable
Seconds.
•
•
•
•
•
dsx1CurrentIndex – The index that identifies the E1
interface.
dsx1TotalBESs – The 24-hour total Bursty Errored
Seconds.
dsx1CurrentESs – Errored Seconds for the current
interval.
dsx1Current SESs – Severely Errored Seconds for
the current interval.
Far End Group, DS1/E1 MIB
dsx1CurrentUASs – Unavailable Seconds for the
current interval.
The DS1 Far End Group consists of the following three
tables:
dsx1CurrentBESs – Bursty Errored Seconds for the
current interval.
•
•
•
DS1 Far End Current
DS1 Far End Interval
DS1 Far End Total
Near End Group – The DS1 Interval Table
Objects (dsx1IntervalEntry)
These tables are not supported for either the network or
G.703 DTE interface.
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.
The DS1 Fractional Group, DS1/E1 MIB
The DS1 Fractional group consists of the DS1
fractional table. This table (dsx1FracTable) is fully
supported by the 336x NTUs and allows channel (time
slots) to be mapped between the E1 interfaces and data
ports. If an invalid channel map (e.g., two interfaces
mapped to a single time slot, one interface mapped to two
E1s, etc.) is received, an error is returned to the SNMP
manager. The E1 NTU validates all channel
•
dsx1IntervalIndex – The index that identifies the E1
interface.
•
dsx1IntervalNumber – The interval number
(1 to 96).
•
•
dsx1IntervalESs – Errored Seconds for the interval.
dsx1Interval SESs – Severely Errored Seconds for
the interval.
configurations before applying them.
Operational Note: The fractional E1 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
G.703 DTE interface to time slots on the network
interface. For mapping time slots between the network
and G.703 DTE interfaces, the following convention is
used: Time slots on the E1 interface that are mapped to
another E1 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
G.703 DTE interface and the G.703 DTE interface maps
time-slots 10, 11 and 15 to the network, the following
time slots are connected: N1 to D10, N3 to D11, and N5
to D15.
•
•
dsx1IntervalUASs – Unavailable Seconds for the
interval.
dsx1Interval BESs – Bursty Errored Seconds for
the interval.
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.
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3360-A2-GB20-20
SNMP MIB Objects
When time-slot 16 is reserved for signaling, allocated
DTE channels must be mapped to the corresponding
network channels (e.g., D1 to N1, etc.), otherwise an error
is returned to the SNMP manager.
(rs232PortTable). The values of the rs232PortIndex object
vary between models and are listed below.
The values of rs232PortIndex for the 3360 NTU are:
•
•
•
•
1 – COM port
When time-slot 16 is using Channel-Associated
Signaling (CAS), allocated DTE channels can be mapped
to any other corresponding network channels (e.g., D1 to
N3, D5 to N7, etc.).
2 – Auxiliary RS-232 port
3 – DCE port 1
4 – DCE port 2
The values of rs232PortIndex for the 3364 NTU are:
RS-232-like MIB (RFC 1317)
•
•
•
•
•
•
1 – COM port
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:
2 – Auxiliary RS-232 port
3 – DCE port 1
•
•
•
•
•
•
Number of RS-232-like ports
The General Port Table
4 – DCE port 2
5 – DCE port 3
The Asynchronous Port Table
The Synchronous Port Table
The Input Signal Table
6 – DCE port 4
The values of rs232PortIndex for the 3365 NTU are:
•
•
•
1 – COM port
The Output Signal Table
2 – Auxiliary RS-232 port
3 – DCE port 1
The Asynchronous Port table is not supported by the
E1 NTU 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 E1 NTU.
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 E1 NTU.
•
•
•
•
other(1) – Used to identify synchronous data ports
that are configured as X.21.
Number of Ports – “rs232Number” Object
(rs232 1)
rs232(2) – Used to identify the AUX and COM
ports.
This object contains the number of ports in the
RS-232-like general port table. This number is 3 for the
3365 NTU, 4 for the 3360 NTU, and 6 for the 3364 NTU.
rs422(3) – Used to identify synchronous data ports
that are configured as EIA-530A or RS-449.
v35(5) – Used to identify synchronous data ports
that are configured as V.35.
General Port Table, RS-232-like MIB
The general port table contains general configuration
objects for the RS-232-like interfaces.
General Port Table – “rs232PortInSigNumber”
Object (rs232PortEntry 3)
General Port Table – “rs232PortIndex” Object
(rs232PortEntry 1)
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
This object contains a unique value for each port and is
used as an index into the general port table
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E-11
ACCULINK 336x E1 NTU
synchronous data ports and 0 for the AUX and COM
ports.
Asynchronous Port Table, “rs232AsyncPortBits”
(rs232AsyncPortEntry 2)
This object specifies the number of bits in a character.
Only the following values are supported by the E1 NTU.
General Port Table – “rs232PortOutSigNumber”
Object (rs232PortEntry 4)
•
7 – 7-bit characters. Supported on the COM port
only.
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.
•
8 – 8-bit characters.
Asynchronous Port Table,
“rs232AsyncPortStopBits”
(rs232AsyncPortEntry 3)
General Port Table – “rs232PortInSpeed”
Object (rs232PortEntry 5)
This object specifies the number of stop bits supported.
Only the following values are supported by the E1 NTU.
This object contains the port’s input speed in bits per
second. For the E1 NTU, 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.
•
•
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)
General Port Table – “rs232PortOutSpeed”
Object (rs232PortEntry 6)
This object specifies the parity used by the port. Only
the following values are supported by the E1 NTU.
This object contains the port’s output speed in bits per
second. For the E1 NTU, 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.
•
•
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)
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 E1 NTU, the entries in
the table that are counters (rs232AsyncPortEntry 6–8) are
used to collect statistics and are not supported.
This object specifies the ability to automatically sense
the input speed of the port. Only the following value is
supported by the E1 NTU.
•
disabled(2) – Autobaud is not supported.
E-12
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3360-A2-GB20-20
SNMP MIB Objects
Synchronous Port Table, RS-232-like MIB
Output Signal 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
E1 NTU, the entries in the table that are counters
(rs232SyncPortEntry 3–7) are used to collect statistics and
are not supported.
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)
Synchronous Port Table –
“rs232SyncPortClockSource”
(rs232SyncPortEntry 2)
This object contains the identification of a hardware
output signal. Only the following values are supported by
the E1 NTU.
•
•
cts(1) – Clear-To-Send.
dsr(4) – Data Set Ready.
This object specifies the clock source for the port. Only
the following values are supported by the E1 NTU.
•
•
internal(1) – The port uses an internal clock.
external(2) – The port uses an external clock.
Output Signal Table – “rs232OutSigState”
(rs232OutSigEntry 3)
Input Signal Table, RS-232-like MIB
This object contains the current signal state. Only the
following values are supported by the E1 NTU.
This table contains entries for the input signals that can
be detected by the unit for each of the synchronous data
ports.
•
•
on(2) – The signal is asserted.
off(3) – The signal is not asserted.
Input Signal Table – “rs232InSigName”
(rs232InSigEntry 2)
Output Signal Table – “rs232OutSigChanges”
(rs232OutSigEntry 4)
This object contains the identification of a hardware
input signal. Only the following values are supported by
the E1 NTU.
This object is not supported by the E1 NTU.
•
•
rts(1) – Request-To-Send.
Generic-Interface Extension
MIB (RFC 1229)
dtr(4) – Data Terminal Ready.
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:
Input Signal Table – “rs232InSigState”
(rs232InSigEntry 3)
This object contains the current signal state. Only the
following values are supported by the E1 NTU.
•
•
•
Generic Interface Extension Table
Generic Interface Test Table
•
•
on(2) – The signal is asserted.
Generic Receive Address Table
off(3) – The signal is not asserted.
Only the generic interface test table is supported by the
E1 NTU. This table is supported for the network interface
only.
Input Signal Table – “rs232InSigChanges”
(rs232InSigEntry 4)
This object is not supported by the E1 NTU.
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E-13
ACCULINK 336x E1 NTU
•
•
•
•
•
•
testSend511 – Initiates a Send 511 test on the
interface. Only supported for the data ports.
Generic Interface Test Table, Generic
Interface MIB
testSendV54Up – Sends a V54 Up code to the
remote unit. Only supported for the data ports.
The test table provides access to additional tests
(loopbacks and pattern tests) that are not in the interfaces
group of MIB II.
testSendV54Down – Sends a V54 Down code to
the remote unit. Only supported for the data ports.
Generic Interface Test Table – “ifExtnsTestType”
Object (ifExtnsTestEntry 4)
testSend32767 – Initiates a Send 32767 test on the
network interface.
testSend1in8 – Initiates a Send 1-in-8 test on the
network interface.
This object is a control variable used to start and stop
operator-initiated tests on the interface. It provides the
capability to:
testMon32767 – Initiates a Monitor 32767 test on
the network interface.
•
•
•
•
•
•
•
Start/stop the Send 32767 test pattern on the
network interface.
Where these object identifiers are defined as follows:
Start/stop the Send 1-in-8 test pattern on the
network interface.
•
•
•
•
•
•
•
•
•
•
•
•
noTest – OBJECT IDENTIFIER ::=
[wellKnownTests 0]
Start/stop the Send QRSS/511 test pattern on a
synchronous data port.
testFullDuplexLoopBack – OBJECT
IDENTIFIER ::= [wellKnownTests 1]
Start sending a V.54 UP/DOWN code to the remote
unit for a synchronous data port.
testLoopDTLB – OBJECT IDENTIFIER ::=
[wellKnownTests 2]
Start/stop the Monitor 32767 test pattern on the
network interface.
testMonQRSS – OBJECT IDENTIFIER ::=
[wellKnownTests 3]
Start/stop the Monitor QRSS/511 test pattern on a
synchronous data port.
testMon511 – OBJECT IDENTIFIER ::=
[wellKnownTests 4]
Start/stop the DCLB/DTLB loopback test on a
synchronous data port.
testSendQRSS – OBJECT IDENTIFIER ::=
[wellKnownTests 5]
The following object identifiers control tests on the
interface.
testSend511 – OBJECT IDENTIFIER ::=
[wellKnownTests 6]
•
noTest – Stops the test in progress on the interface.
testSendV54Up – OBJECT IDENTIFIER ::=
[wellKnownTests 7]
•
•
•
•
•
testFullDuplexLoopBack – Initiates a DCLB on the
interface. Only supported for the data ports.
testSendV54Down – OBJECT IDENTIFIER ::=
[wellKnownTests 8]
testLoopDTLB – Initiates a DTLB on the interface.
Only supported for the data ports.
testSend32767 – OBJECT IDENTIFIER ::=
[wellKnownTests 11]
testMonQRSS – Initiates a Monitor QRSS test on
the interface. Only supported for the data ports.
testSend1in8 – OBJECT IDENTIFIER ::=
[wellKnownTests 12]
testMon511 – Initiates a Monitor 511 test on the
interface. Only supported for the data ports.
testMon32767 – OBJECT IDENTIFIER ::=
[wellKnownTests 13]
testSendQRSS – Initiates a Send QRSS test on the
interface. Only supported for the data ports.
E-14
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3360-A2-GB20-20
SNMP MIB Objects
Generic Interface Test Table –
“ifExtnsTestResult” Object (ifExtnsTestEntry 5)
Paradyne Enterprise MIB
The variable devConfigAreaCopy under the
This object contains the result of the most recently
requested test. Only the following values are supported by
the E1 NTU.
devConfigAreaCopy group in the common area of the
Paradyne Enterprise MIB will be supported. This variable
allows the entire contents of one configuration area to be
copied into another configuration area. Only the following
values are supported by the E1 NTU.
•
•
•
none(1) – No test currently active.
inProgress(3) – A test is currently in progress.
•
•
•
•
•
•
•
•
noOp(1) – An attempt to read this value returns a
“noOp” response.
notSupported(4) – The requested test is not
supported.
active-to-customer1(2) – Copy from the active area
to the customer 1 area.
•
unAbleToRun(5) – The requested test cannot run
due to the state of the unit.
active-to-customer2(3) – Copy from the active area
to the customer 2 area.
customer1-to-active(4) – Copy from the customer 1
area to the active area.
Generic Interface Test Table –
“ifExtnsTestCode” Object
(ifExtnsTestEntry 6)
customer1-to-customer2(5) – Copy from the
customer 1 area to the customer 2 area.
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 E1 NTU.
customer2-to-active(6) – Copy from the customer 2
area to the active area.
customer2-to-customer1(7) – Copy from the
customer 2 area to the customer 1 area.
•
none – No further information is available. Used for
the send pattern/code and loopback tests.
factory1-to-active(8) – Copy from the factory area
to the active area. (There is only one factory area
for the E1 NTU.)
•
inSyncNoBitErrors – A monitor pattern (QRSS or
511) test has synchronized on the pattern and has
not detected any bit errors.
•
•
factory1-to-customer1(9) – Copy from the factory
area to the customer 1 area.
•
•
inSyncWithBitErrors – A monitor pattern (QRSS or
511) test has synchronized on the pattern and has
detected bit errors.
factory1-to-customer2(10) – Copy from the factory
area to the customer 2 area.
notInSync – A monitor pattern (QRSS or 511) test
has not synchronized on the requested pattern.
Where these object identifiers are defined as follows:
•
•
•
•
•
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]
3360-A2-GB20-20
December 1996
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E-15
ACCULINK 336x E1 NTU
panel and how the same function is accomplished using
access to the SNMP database. SNMP objects are
displayed in bold type while values for SNMP objects are
displayed in italics.
Correlation between Menu
Commands and SNMP Objects
function is performed or status is displayed on the front
Table E-1
(1 of 4)
SNMP MIB to Front Panel Command Cross-Reference
Front Panel Command
SNMP MIB Object
Stat–>DevHS:
Read the dsx1LineStatus object for NET E1
dsx1LossOfSignal
dsx1LossOfFrame
dsx1RcvFarEnd
dsx1RcvAIS
dsx1OtherFailure
dsx1RcvFarEndLOMF
dsx1XmtFarEndLOMF
LOS at NET
OOF at NET
RAI at NET
AIS at NET
EER at NET
RMA at NET
MFA at NET
Stat–>DevHS:
Read the dsx1LineStatus object for DTE E1
dsx1LossOfSignal
dsx1LossOfFrame
dsx1RcvFarEnd
dsx1RcvAIS
dsx1OtherFailure
dsx1RcvFarEndLOMF
dsx1XmtFarEndLOMF
LOS at DTE
OOF at DTE
RAI at DTE
AIS at DTE
EER at DTE
RMA at DTE
MFA at DTE
Stat–>Perf–>NET–>Cur:
CurTimer
Read the value in the following objects for NET E1
dsx1TimeElapsed
ES
dsx1CurrentES
UAS
SES
BES
dsx1CurrentUAS
dsx1CurrentSES
dsx1CurrentBES
Stat–>Perf–>NET–>Intvl–>Dsply:
Select the interval number with dsx1IntervalNumber. Read the value
in the following objects for NET E1
dsx1IntervalES
ES
UAS
SES
BES
VldIntvl
dsx1IntervalUAS
dsx1IntervalSES
dsx1IntervalBES
dsx1ValidIntervals
Stat–>Perf–>NET–>24Tot:
Read the value in the following objects for NET E1
dsx1ValidIntervals
dsx1TotalES
VldIntvl
ES
UAS
SES
BES
dsx1TotalUAS
dsx1TotalSES
dsx1TotalBES
E-16
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3360-A2-GB20-20
SNMP MIB Objects
Table E-1
(2 of 4)
SNMP MIB to Front Panel Command Cross-Reference
Front Panel Command
SNMP MIB Object
Stat–>Tstat:
Read:
LLB Test Active
PLB Test Active
RLB Test Active
DLB Test Active
DCLB on Port n
DTLB on Port n
32767 Test Active
1–8 Test Active
QRSS on Port n
511 on Port n
dsx1LineLoop from dsx1LoopbackConfig for Net E1
dsx1PayloadLoop from dsx1LoopbackConfig for Net E1
dsx1PayloadLoop from dsx1LoopbackConfig for DTE E1
dsx1LineLoop from dsx1LoopbackConfig for DTE E1
testFullDuplexLoopback from IfExtnsTestType for Port n
testLoopDTLB from IfExtnsTestType for Port n
testSend32767 from ifExtnsTestType for Net E1
testSend1in8 from ifExtnsTestType for Net E1
testSendQRSS from IfExtnsTestType for Port n
testSend511 from IfExtnsTestType for Port n
Mon QRSS, Port n
Mon511, Port n
Mon 32767, Net E1
testMonQRSS from ifExtnsTestType for Port n
testMon511 from ifExtnsTestType for Port n
testMon32767 from ifExtnsTestType for Net E1
Stat–>LED–>Prtn:
Read:
DTR
CTS
RTS
rs232InSigState from rs232InSigName == dtr
rs232outSigState from rs232OutSigName == cts
rs232InSigState from rs232InSigName == rts
Stat–>ID:
Ser
Mod
SRev
Read sysDescr object from the System Group
HRevCCA1
HRevCCA2
HRevCCA3
Test–>Rlpbk–>DCLBUP–>Prtn
Test–>Rlpbk–>DCLBDN–>Prtn
Set IfExtnsTestType for port n to testSendV54Up
Set IfExtnsTestType for port n to testSendV54Down
Test–>Lpbk–>LLB
Set dsx1LoopbackConfig for NET E1 to dsx1LineLoop
Test–>Lpbk–>Abort–>LLB
Set dsx1LoopbackConfig for NET E1 to dsx1NoLoop
Test–>Lpbk–>PLB
Set dsx1LoopbackConfig for NET E1 to dsx1PayloadLoop
Test–>Lpbk–>Abort–>PLB
Set dsx1LoopbackConfig for NET E1 to dsx1NoLoop
Test–>Lpbk–>DLB
Set dsx1LoopbackConfig for DTE E1 to dsx1LineLoop
Test–>Lpbk–>Abort–>DLB
Set dsx1LoopbackConfig for DTE E1 to dsx1NoLoop
Test–>Lpbk–>RLB
Set dsx1LoopbackConfig for DTE E1 to dsx1PayloadLoop
Test–>Lpbk–>Abort–>RLB
Set dsx1LoopbackConfig for DTE E1 to dsx1NoLoop
3360-A2-GB20-20
December 1996
E-17
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ACCULINK 336x E1 NTU
Table E-1
(3 of 4)
SNMP MIB to Front Panel Command Cross-Reference
Front Panel Command
SNMP MIB Object
Test–>Lpbk–>DCLB–>Prtn
Set IfExtnsTestType for port n to testFullDuplexLoopBack
Test–>Lpbk–>Abort–>DCLB–>Prtn
Set dsx1LoopbackConfig for port n to noTest
Test–>Lpbk–>DTLB–>Prtn
Set IfExtnsTestType for port n to testLoopDTLB
Test–>Lpbk–>Abort–>DTLB–>Prtn
Set dsx1LoopbackConfig for port n to noTest
Test–>Ptrns–>Send–>QRSS–>Prtn
Test–>Ptrns–>Abort–>Send–>Prtn
Set IfExtnsTestType for port n to testSendQRS
Set IfExtnsTestType for port n to noTest
Test–>Ptrns–>Send–>32767
Set ifExtnsTestType for NET E1 to testSend32767
Test–>Ptrns–>Abort–>Send–>NET
Set ifExtnsTestType for NET E1 to noTest
Test–>Ptrns–>Send–>1in8
Set ifExtnsTestType for NET E1 to testSend1in8
Test–>Ptrns–>Abort–>Send–>NET
Set dsx1SendCode for NET E1 to dsx1SendNoCode
Test–>Ptrns–>Send–>511–>Prtn
Test–>Ptrns–>Abort–>Send–>Prtn
Set IfExtnsTestType for port n to testSend511
Set IfExtnsTestType for port n to noTest
Test–>Ptrns–>Mon–>QRSS–>Prtn
Test–>Ptrns–>Abort–>Mon–>Prtn
Set ifExtnsTestType for port n to testMonQRSS
Set ifExtnsTestType for port n to noTest
Test–>Ptrns–>Mon–>511–>Prtn
Test–>Ptrns–>Abort–>Mon–>Prtn
Set ifExtnsTestType for port n to testMon511
Set ifExtnsTestType for port n to noTest
Test–>Ptrns–>Mon–>32767–>NET
Test–>Ptrns–>Abort–>Send–>NET
Set ifExtnsTestType for NET E1 to testMon32767
Set dsx1SendCode for NET E1 to dsx1SendNoCode
Cnfig–>Load
Cnfig–>Save
Set devConfigAreaCopy to desired choice(Active to Customer1, etc.)
Set/Display dsx1LineType for DTE E1 to dsx1E1 or dsxE1-CRC
Set/Display dsx1LineCoding for DTE E1 to dsx1HDB3 or dsx1AMI
Display rs232PortType for port n to rs422, v35, or X.21
Cnfig–>Activ–>Edit–>DTE–>DTE–>Frame
Cnfig–>Activ–>Edit–>DTE–>DTE–>Coding
Cnfig–>Activ–>Edit–>Port–>Prtn->Port Type
Cnfig–>Activ–>Edit–>Port–>Prtn–>TxClock
Set/Display rs232SyncPortClockSource for port n to internal or
external
Cnfig–>Activ–>Edit–>NET–>NET Frame
Cnfig–>Activ–>Edit–>NET–>Mgmt Link
Set/Display dsx1LineType for NET E1 to dsx1E1 or dsxE1-CRC
Set/Display dsx1Fdl for NET E1 to dsx1other or dsx1FDL-none
E-18
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3360-A2-GB20-20
SNMP MIB Objects
Table E-1
(4 of 4)
SNMP MIB to Front Panel Command Cross-Reference
Front Panel Command
SNMP MIB Object
Cnfig–>Activ–>Edit–>Chan–>DTE–>Assign
Cnfig–>Activ–>Edit–>Chan–>DTE–>TS16
Set/Display dsx1FracNumber and dsx1FracIfindex for DTE E1
Display dsx1SignalMode for DTE E1 to none or bitOriented or
messageOriented
Cnfig–>Activ–>Edit–>Chan–>Prtn–>Assign To
Cnfig–>Activ–>Edit–>Chan–>Dsply
Set/Display dsx1FracNumber and dsx1Fracifindex for DTE E1 or
NET E1
Cnfig–>Activ–>Edit–>Chan–>Prtn–>Port Rate
Display rs232PortInSpeed or rs232PortOutSpeed for port n
Cnfig–>Activ–>Edit–>Gen–>Pri Clk Src
Cnfig–>Activ–>Edit–>Gen–>Sec Clk Src
Display dsx1TransmitClockSource for DTE E1 or NET E1 (Displays
the active clock only)
Cnfig–>Activ–>Edit–>User–>Com Rate
Cnfig–>Activ–>Edit–>User–>Aux Rate
Set/Display rs232PortInSpeed or rs232PortOutSpeed for COM or
AUX port
Cnfig–>Activ–>Edit–>User–>Char Length
Cnfig–>Activ–>Edit–>User–>CParty
Cnfig–>Activ–>Edit–>User–>CStop Bits
Set/Display rs232AyncPortBits for COM port
Set/Display rs232AyncPortParity for COM port
Set/Display rs232AyncPortStopBits for COM port
3360-A2-GB20-20
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E-19
IP Network Addressing Scenario
F
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F-1
IP Network Addressing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F-1
•
Interconnected 33xx Series devices automatically
Overview
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
33xx 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.
This appendix describes a means of configuring 33xx
Series devices in an Internet Protocol (IP) network to
provide SNMP connectivity to a network management
system (NMS). Since there are many possible network
addressing schemes, this appendix describes an addressing
scheme for a typical customer network scenario. This
appendix is not intended to be an IP addressing or routing
tutorial, and a basic understanding of IP and 33xx Series
features is assumed.
•
•
•
Although routing table entries are maintained
automatically by 33xx Series devices, without the
need for user configuration, only a maximum of
100 routes is supported for a given device.
IP Network Addressing
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.
consists of a series of standalone 33xx Series devices
daisy chained together, with remotes connected via the
FDL. In this scenario, all 33xx 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.
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 example, the default port (COM or AUX)
is set in the device connected to the LAN Adapter.
The following notes apply to this scenario:
•
Connections to remote devices may be via EDL or
FDL. 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).
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F-1
ACCULINK 336x E1 NTU
ETHERNET
135.18.40.1
135.18.1.2
NETWORK
135.18.1.3
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 Devices at the Central Site
F-2
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Front Panel Emulation
G
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . G-1
Installing Front Panel Emulation Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . G-1
Starting Front Panel Emulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . G-2
Overview
The E1 NTU offers functionality through Front Panel
Emulation software that is similar to that provided by the
E1 NTU front panel. The E1 NTU can either be locally or
remotely attached to a 386 or higher PC that has at least
4 MB of RAM. (An external modem is required for
remote attachment.) A copy of the E1 NTU front panel
appears on the PC. The functionality of the front panel is
available by clicking on the Function keys with the mouse
rather than by pressing keys from the actual front panel.
4. Type the letter of the drive being used by the
diskette, followed by a colon. Then,
5. TYPE: INSTALL
6. PRESS: ENTER
Installing Front Panel
Emulation Software
7. An Information screen appears. Choose Continue
to continue the installation.
The Front Panel Emulation software is supplied on a
3.5-inch, 1.44 MB, double-sided, high-density,
write-protected diskette, with 15 sectors per track,
80 tracks per side, and 96 tracks per inch.
8. Type the letter of the destination drive, followed
by a colon (default is C:), then the appropriate
directory name (default is C:\FRONTPAN).
This software must be installed on a 386 or higher PC
with Microsoft Windows Release 3.1 or higher,
MS-DOS 3.3 or higher, and at least 4 MB of RAM. A
VGA color monitor with VGA adapter (or higher
resolution) is required. A mouse is also required. The
following procedures must be performed in the Windows
environment.
If the selected directory already exists, the
following message appears: The specified
directory already exists. Do you want to
overwrite the directory?
If the selected directory is new, the following
message appears: The specified directory does
not exist. Do you want to create the directory?
To install Front Panel Emulation software,
1. Insert the diskette into the appropriate drive.
2. Select File from Program Manager.
3. Choose Run.
9. Select Yes. A confirmation screen appears. Select
Install to continue the installation.
10. A Setup Completed screen appears. Select
Continue. The Program Manager screen appears
with the Front Panel icon.
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G-1
ACCULINK 336x E1 NTU
3. Double click on the Front Panel icon that appears
after the Front Panel Emulation program is
installed on the PC. The Front Panel Emulation
screen appears.
Starting Front Panel
Emulation
If the E1 NTU selected is not locally attached to the
PC, you must first dial to the remote E1 NTU before
starting front panel emulation. The modem attached to the
PC must support AT commands for the Front Panel
Emulation software to successfully place the call.
To start front panel emulation,
1. From the PC, open Program Manager from
Windows.
4. Enter the Com Port and Speed from the
drop-down selection list boxes.
The Com Port field needs to contain the actual
communications port name as recorded in the
Windows information file (INI).
The Speed field needs to contain one of the
following communications speeds: 1200, 2400,
4800, 9600, 14400, 19200, or 38400 and should
match the E1 NTU’s COM port configuration.
2. The Front Panel Window opens.
5. Choose either a Local (for near-end E1 NTU) or
Remote (for far-end E1 NTU) destination.
6. If you chose a Local destination, click on the
Execute button. If you chose a Remote
destination, enter the telephone number of the
external modem connected to the far-end E1 NTU
in the Phone Number field, then click on the Dial
button.
7. The front panel of the selected E1 NTU appears
on the PC.
NOTE
When using Front Panel
Emulation, no LEDs are shown on
the PC’s screen; you must use
the Stat command procedure to
get LED information (see the
section in Chapter 3, Operation).
G-2
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3360-A2-GB20-20
Equipment List
H
Equipment
Feature Number
3360-A1-310
3364-A1-310
3365-A1-310
3100-F1-550
3100-F1-540
3100-F1-520
3100-C1-010
3100-F1-580
3100-F1-570
3100-F1-571
3100-F1-400
COMCODE
107699035
107699043
107699068
406941542
406941534
406941492
406942110
107116543
107116550
107768103
406941674
Model 3360 E1 NTU
Model 3364 E1 NTU
Model 3365 E1 NTU
Modular COM Port-to-PC Cable, 8-pin modular to DB9S
COM Port-to-Terminal/Printer Cable, 8-pin modular to DB25P
DC Power Cable
Front Panel Emulation Software
DB25 EIA 530A-to-RS449/422 Cable
DB25 EIA 530A-to-V.35 Cable
DB25 EIA 530A-to-X.21 Cable
Wall-Mount/Rack-Mount Adapter
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H-1
Glossary
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.
aggregate
AIS
A single bit stream that combines two or more bit streams.
Alarm Indication Signal. A signal transmitted instead of the normal signal to
maintain transmission continuity and to indicate to the receiving device that a
transmission fault exists.
AMI
Alternate Mark Inversion. A line coding technique used to accommodate the ones
density requirements of E1 lines.
application
ASCII
The use to which a device is put.
American Standard Code for Information Interchange. A 7-bit code which
establishes compatibility between data services.
ASCII terminal/printer
asynchronous data
Devices that can be attached, either locally or remotely, to the E1 NTU to display or
print alarm messages.
Data transmission that is synchronized by a transmission start bit at the beginning
of a character (five to eight bits) 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
AWG
The auxiliary communications port on the E1 NTU.
American Wire Gauge. An indication of wire size.
bandwidth
The range of frequencies that a circuit can pass. The greater the bandwidth, the
more information that can be sent in a given amount of time.
BES
Bursty Errored Seconds. Seconds with more than one, but less that 805 CRC errors.
bipolar signal
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.
bit
Binary digit. The smallest unit of information, representing a choice between a one
or a zero (sometimes called mark or space).
block allocation method
A method of allocating DS0 channels as a group rather than individually.
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Glossary-1
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ACCULINK 336x E1 NTU
BNC
bps
Bayonet-Neill-Concelman. A bayonet-type connector for coaxial cables.
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
CAS
A small group of bits (usually 8) that is handled as a unit of data.
Channel-Associated Signaling. Time-slot 16 is reserved for signaling in a 16-frame
multiframe system. With the exception of time-slot 16, the other time slots do not
need to be directly connected as they are in Common-Channel Signaling (CCS).
CCITT
CCS
The International Consultative Committee for Telegraphy and Telephony. (It is now
renamed as the ITU.)
Common-Channel Signaling. Time-slot 16 is reserved for signaling in a 2-frame
multiframe system. The time slots must be directly connected so that the G.703
DS0 channels are connected to the corresponding network DS0 channels (e.g., D1
to N1, D2 to N2, etc.).
CD
Carrier Detect. The received line signal detector. V.24 circuit 109.
CEPT
The European Conference of Postal and Telegraph Authorities. A European
standards organization.
channel
An independent data path.
channel allocation
Assigning specific DS0 channels in the E1 NTU to specific interfaces (HDSL
Network, G.703 DTE, etc.).
CHAP
Challenge Authentication Protocol.
character
CID branch
client
A letter, figure, number, punctuation, or other symbol.
Customer Identification branch or the E1 NTU menu tree.
A device that receives a specific service, such as database management, from a
server.
CLOCK IN interface
ClrReg branch
Cnfig branch
The external clock interface on the E1 NTU.
Clear Performance Registers branch of the E1 NTU menu tree.
Configuration branch of the E1 NTU menu tree.
coaxial cable
A transmission cable consisting of a conducting outer tube which encloses and is
insulated from an inner conducting core.
coding
A technique used to accommodate the ones density requirements of E1 lines.
A code used when ordering parts.
COMCODE
COM port
The communications port on the E1 NTU.
community name
configuration
An identification used by SNMP to grant an SNMP server access rights to a MIB.
The arrangement of a system or network as defined by the characteristics of its
functional units.
configuration option
Device firmware that establishes specific operating parameters for the device.
Sometimes referred to as straps.
control unit
CPU fail
A unit that exerts control over another unit.
Central Processing Unit failure. A Self-Test Health message indicating a failure in
the device’s central processing unit.
Glossary-2
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Glossary
CRC
Cyclic Redundancy Check. A mathematical method of confirming the integrity of
received digital data.
CRC4
CRC5
CRC6
CSA
CRC using four check bits.
CRC using five check bits.
CRC using six check bits.
Canadian Standards Association.
CSU
Channel Service Unit. Protects the E1 line from damage and regenerates the E1
signal.
Ctrl branch
CTS
Control branch of the E1 NTU menu tree.
Clear-to-Send. V.24 circuit 106.
Cust1
Customer 1 configuration area. The first of two sets of customer-defined
configuration options.
Cust2
Customer 2 configuration area. The second of two sets of customer-defined
configuration options.
daisy chaining
Connecting the COM port of one E1 NTU to the AUX port of another E1 NTU to
provide SNMP connectivity.
database
data port
An organized compilation of computerized data.
The electrical interface between the E1 NTU and the synchronous data terminal
equipment.
DB15 connector
DB25 connector
DCE
A 15-position connector used on cables or devices.
A 25-position connector used on cables or devices.
Data Circuit-terminating Equipment or Data Communications Equipment. A device
which provides signal conversion for communication between the DTE and the
network.
DCLB
Data Channel Loopback. Loops the data received from the network interface, for all
DS0 channels allocated to the selected port, back to the network.
default
A 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 E1 NTU menu tree.
A mechanical, electrical, or electronic unit with a special purpose.
digital signal
A signal composed of discrete elements (zeros and ones) instead of a great
multitude of analog elements.
diskette
DLB
A thin, flexible magnetic disk enclose in a protective jacket.
DTE Loopback. Loops the received signal on the G.703 DTE port back to the DTE
without change.
DL branch
download
Download branch of the E1 NTU menu tree.
A process that transfers device firmware from a locally-attached PC to a device, or
allows the duplication of firmware from a local device to a remote device.
downstream device
drop/insert
A device that is connected farther from the host computer.
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.
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Glossary-3
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ACCULINK 336x E1 NTU
DSR
Data Set Ready. V.24 circuit 107.
DS0
Digital Signal Level 0. A 64 kbps standard signal or channel.
DS0 channel allocation
Assigning specific DS0 channels in the E1 NTU to specific interfaces (HDSL
Network, G.703 DTE, etc.).
DS1/E1 MIB
DTE
Defines objects for managing E1 interfaces and supports the network and G.703
DTE interfaces on the E1 NTU.
Data Terminal Equipment. The equipment, such as a computer or terminal, that
provides data in the form of digital signals.
DTLB
Data Terminal Loopback. Loops the data received from the selected port, for all
DS0 channels allocated to the port, back out the port.
DTR
EDL
Data Terminal Ready. V.24 circuit 108/1, /2.
Embedded Data Link. The 8 kbps in-band performance channel that provides
4 kbps of user bandwidth for the support of an SNMP management link.
EER
EIA
Excessive Error Rate. An error rate that is greater than the threshold in the E1 NTU.
Electronic Industries Association. An organization providing standards for the data
communication industry.
EIA 530A
An EIA standard for a high-speed, 25-position, DCE/DTE interface.
MIB objects unique to Paradyne devices.
Enterprise MIB
enterprise-specific trap
error
A trap unique to Paradyne devices.
A discrepancy between a measured or computed value or condition and the true or
specified value or condition.
ES
Errored seconds. Seconds with one or more error events.
ESD
Electrostatic discharge. An undesirable discharge of static electricity that can
damage equipment and degrade electrical circuitry.
ETSI
E1
European Telecommunications Standardization Institute. An organization that
produces technical standards in the area of telecommunications.
A wideband digital interface operating at 2.048 Mbps defined by CCITT standards
G.703 and G.704.
Fact
Factory configuration area. A configuration option set that is preset at the company
(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
FDL
Federal Communications Commission. A board of commissioners that regulates
electrical communication systems that originate in the United States.
Facility Data Link. The selected framing bits in a wide-area link that are used for
control, monitoring, and testing.
FEBE
Far-End Block Error. Block errors reported by remote equipment.
Fractional E1
Individual DS0 channels that may be sold separately or in groups to provide
bandwidth that is some fraction of the total E1 capability.
frame
One identifiable group of bits that includes a sequence of bits for control,
framing, etc.
frame relay
A switching interface that is designed to get frames from one part of the network to
another as quickly as possible.
Glossary-4
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Glossary
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 command (SNMP)
ground
Read-only access to SNMP MIB objects.
A physical connection to earth or other reference point.
G.703
The ITU (formerly CCITT) standard for the physical and logical characteristics of
transmissions over digital circuits.
G.703 DTE interface
G.704
The G.703 interface on the rear panel of the E1 NTU.
The ITU (formerly CCITT) standard for the physical and electrical characteristics
of digital interfaces.
HDB3
HDLC
HDSL
High Density Bipolar Three Zeros Substitution. A line coding technique used to
accommodate the ones density requirements of E1 lines.
High-level Data Link Control. A communications protocol defined by the
International Standards Organization (ISO).
High bit-rate Digital Subscriber Line. A technique that allows high bit-rate (E1)
digital signals to be transmitted over subscriber (local loop) lines.
host
Hz
A computer system used for application processing on a network.
Hertz. A unit of frequency that equals one cycle per second.
ICMP
Internet Control Management Protocol. The protocol that enables in-band control,
diagnostic, and error messages to be passed between nodes in an IP internetwork.
ID branch
interface
Internet
Identity branch of the E1 NTU menu tree.
A shared boundary between functional units.
The worldwide interconnected collection of networks that predominantly use the
TCP/IP protocol.
internetwork
IP address
An interconnected collection of networks (also called an internet).
Internet Protocol address. The address used by the SNMP manager to access the
device.
ISO
ITU
International Standards Organization.
International Telecommunications Union. The telecommunications agency of the
United Nations, established to provide standardized communications procedures
and practices.
kbps
LAN
Kilobits per second (thousand bits per second).
Local Area Network. A network that spans a small geographic area (e.g., a
building).
LCD
Liquid Crystal Display. Sealed glass plates containing liquid crystal material. When
voltage is applied, the amount of light passing through the plates is altered so that
messages may be displayed.
LCP
LED
Link Control Protocol.
Light-Emitting Diode. A status indicator that glows in response to the application of
a voltage.
link
A communication path between two network nodes.
link layer protocol
The protocol that regulates the communication between two network nodes.
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ACCULINK 336x E1 NTU
link trap
LLB
A trap that identifies the condition of the communications interface (linkDown or
linkUp traps).
Line Loopback. Loops the received signal on the network interface back to the
network without change.
local loop
A twisted-wire-pair cable that connects the subscriber’s premises to the local
switching office.
LOF
Loss Of Frame. The inability to maintain frame synchronization.
Loss Of Frame Count. A count of the number of LOFs declared.
LOFC
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 E1 line condition where there are no pulses.
Local Loopback branch of the E1 NTU menu tree.
Link Quality Reports.
Lpbk branch
LQR
LTU
Line Termination Unit. The control unit on the network end of an HDSL link. (The
NTU is on the customer end.)
manager (SNMP)
MB
The device that queries agents for management information, or receives unsolicited
messages (traps) indicating the occurrence of specific events.
Megabytes. A unit of memory measurement equal to approximately one million
bytes (typically 1,048,576 bytes).
Mbps
Megabits per second (million bits per second).
menu tree
A display of E1 NTU functions that are accessed by selecting various branches
(Status, Test, etc.).
MFA
MIB
Multiframe Alarm. A condition in which two consecutive multiframe alignment
signals are received in error.
Management Information Base. A database of managed objects used by SNMP to
provide network management information.
MIB II
MIB Release 2. The current Internet-standard MIB.
MRU
Maximum Request Unit.
module
A compact assembly functioning as a component in a larger system or unit.
An ordered, functional sequence of frames on a multiplexed digital circuit.
To interleave or simultaneously transmit two or more messages on a single circuit.
A configuration of data processing devices for information exchange.
The HDSL Network interface connector on the rear panel of the E1 NTU.
multiframe
multiplex
network
network interface
NMS
Network Management System. A computer system used for monitoring and
controlling network devices.
node
NTU
A connection or switching point on the network.
Network Termination Unit. The tributary unit on the customer end of an HDSL
link. (The LTU is on the network end.)
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.
Glossary-6
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Glossary
parity
A way of checking data accuracy by counting the number of bits that have a value
of one.
payload
PBX
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
network.
PC
Personal computer. In this document, references to a PC imply an IBM PC or an
IBM-compatible PC.
PDU
PDV
Protocol Data Unit. Used when adding routes in the Internet.
Pulse Density Violation. The number of “ones” (marks, pulses) is not adequate for
the line requirement.
Perf branch
PLB
Performance Report branch of the E1 NTU menu tree.
Payload Loopback. Loops the received signal on the network interface back to the
network after it has passed through the framing circuity of the E1 NTU.
port
An access point for data entry or exit.
PORT (1–4) interface
POWER connector
power-up self-test
The synchronous data port interface on the E1 NTU.
The power input connector on the E1 NTU.
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 link layer protocol used by SNMP.
PRBS
Psuedo-Random Bit Sequence. A test pattern containing any possible combination
of digital ones and zeros for a given string length.
primary clock
PRM
The primary timing source used to synchronize all of the E1 and data port interfaces
on the E1 NTU.
Performance Report Message. A message indicating performance data such as
errored seconds, unavailable seconds, etc.
protocol
A set of rules that determines the behavior of functional units in achieving
communication.
Ptrns branch
pulse density
Test Patterns branch of the E1 NTU menu tree.
A measure of the number of “ones” (marks, pulses) in relation to the total number
of bits transmitted.
QRSS Test
Quasi-Random Signal Test. A test pattern simulating a random pattern of digital
ones and zeros used to simulate normal transmission.
RAI
Remote Alarm Indication. A remote alarm on an E1 line.
RAM
Random-access memory. Read/write memory that is volatile and loses its contents
when power is removed.
register
A part of the device’s memory that holds stored values.
Release branch of the E1 NTU menu tree.
Rel branch
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ACCULINK 336x E1 NTU
reset
RFC
A reinitialization of the E1 NTU that occurs at power-up or in response to a reset
command.
Request for Comments. The set of documents that describes the standard
specifications for the TCP/IP protocol suite.
RIP
Routing Information Protocol. A protocol used to add routes in the Internet.
An 8-position modular connector.
RJ48C
RLB
Repeater Loopback. Loops the signal being sent to the network back to the G.703
DTE and data ports after it has passed through the framing circuitry of the E1 NTU.
Rlpbk branch
RMA
Remote Loopback branch of the E1 NTU menu tree.
Remote Multiframe Alarm. An indication of a Multiframe Alarm condition at a
remote location.
router
A device that connects LAN segments.
RS-232
An EIA standard for a low-speed, 25-position, DCE/DTE interface.
RS-232-like MIB
Defines objects for managing RS-232-type interfaces and supports synchronous
data ports and management communication ports on the E1 NTU.
RS-449
RTS
An EIA standard for a general-purpose, 37-position, DCE/DTE interface.
Request-to-Send. V.24 circuit 105.
RX
Receive. To obtain signals that have been transmitted.
Receive Clock. V.24 circuit 115.
RXC
RXD
Receive Data. V.24 circuit 104.
secondary clock
The secondary clock source used to provide timing to the E1 NTU when the
primary clock fails.
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. For E1 data, seconds with 805 or more CRC errors or
errored frame alignment signals; or one or more LOS, AIS, or OOF events.
Set command (SNMP)
Write access to SNMP MIB objects.
SLIP
Serial Line Internet Protocol. A link layer protocol used by SNMP.
SNMP
Simple Network Management Protocol. A generic network management system
that allows the device to be managed by any industry-standard SNMP manager.
Stat branch
STest branch
StEvnt
Status branch of the E1 NTU menu tree.
Self Test Health branch of the E1 NTU menu tree.
Status Event Register. Records the occurrence of certain alarm conditions.
subnet
An IP addressing standard in which a portion of the host address can be used to
create multiple network addresses that are logically a subdivision of the network
address.
subnet mask
synchronous data
TCP/IP
An integer used with the IP address of the host to determine which bits in the host
address are used in the subnet address.
Data transmission that is synchronized by timing signals. Characters are sent at a
fixed rate.
Transmission Control Protocol/Internet Protocol. The dominant protocol in the
worldwide Internet.
Glossary-8
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Glossary
time slot
The allocated DS0 channel slot when DS0 channels are combined to form an
aggregate bit stream.
trap (SNMP)
A notification message to the SNMP manager when an unusual event occurs on a
network device, such as a reinitialization.
tributary unit
TStat branch
TS16
A unit that is under the control of another unit.
Test Status branch of the E1 NTU menu tree.
Time-slot 16. The time slot which may be reserved for signaling.
Transmit. To send signals from a device.
TX
TXC
Transmit Clock. V.24 circuit 114.
TXD
Transmit Data. V.24 circuit 103.
UAS
Unavailable Seconds. A count of 1-second intervals when service is unavailable.
UDP
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.
Volts alternating current.
Vac
Vdc
Volts direct current.
V.24
A CCITT standard for a low-speed, 25-position, DCE/DTE interface.
A CCITT standard for a high-speed, 34-position, DCE/DTE interface.
A CCITT standard for local and remote diagnostic loopback tests.
A CCITT standard for a data channel loopback (DCLB).
A CCITT standard for a data terminal loopback (DTLB).
Wide Area Network. A network that spans a large geographic area (e.g., a country).
An SNMP trap that indicates that the device has reinitialized itself.
External Transmit Clock. V.24 circuit 113.
V.35
V.54
V.54 Loop 2
V.54 Loop 3
WAN
warmStart trap
XTXC
X.21
A CCITT standard for a high-speed, 15-position, DCE/DTE interface.
1in8 Test
A test pattern consisting of a one (1) followed by seven zeros (on the network
only).
2B1Q
Two binary, one quaternary. A line coding technique that compresses two binary
bits of data into one time state as a four-level code.
511 Test
32767 Test
A pseudo-random bit sequence (PRBS) that is 511 bits long (on the data ports
only). This is a PRBS 2 –1 test.
9
A pseudo-random bit sequence (PRBS) that is 32,767 bits long (on the network
15
only). This is a PRBS 2 –1 test.
3360-A2-GB20-20
December 1996
Glossary-9
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Index
A
C
abort
lamp test, 4-25
cabling
Chan (Channel) Configuration branch
Activ (Active) configuration area
addressing. See IP (Internet Protocol) addressing
channel allocation
AIS (Alarm Indication Signal) condition
CID (Customer Identification) branch
CLOCK IN interface
Alarm Configuration branch
clocking
alarm messages. See messages, alarm
allocation, DS0 channel. See channel allocation
ClrReg (Clear Performance Registers) branch
ASCII terminal/printer
AUX Port
Cnfig (Configuration) branch. See configuration options
COM Port
used with ASCII terminal/printer, 1-2, 2-8, 4-10
community name
configuration options
B
BPV (Bipolar Violation) condition
procedure for changing, 3-11–3-14
tables
3360-A2-GB20-20
December 1996
Index-1
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ACCULINK 336x E1 NTU
E
EER (Excessive Error Rate) condition
connectors, rear panel
Embedded Data Link (EDL)
Ctrl (Control) branch
Cust1 (Customer 1) configuration area
error messages. See messages, alarm
Cust2 (Customer 2) configuration area
cyclic redundancy check (CRC)
F
Facility Data Link (FDL)
Fact (Factory) configuration area
failure analysis. See troubleshooting
failure message
during power-up self-test, 2-9, 4-4
FEBE (Far-End Block Error) report, 4-9
front panel
D
daisy chaining
connectivity, 1-5, 2-3, 2-4
data port. See PORT (1–4) interface
DevHS (Device Health and Status) branch
Front Panel Emulation
feature number, H-1
DL (Download) branch
DS0 channel allocation. See channel allocation
DTE (G.703) interface. See G.703 DTE interface
DTE Configuration branch
G
G.703 DTE interface
Index-2
December 1996
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Index
Gen (General) Configuration branch
liquid crystal display (LCD)
LOF (Loss Of Frame) condition
loopback
H
HDB3 (High Density Bipolar 3) coding
Self-Test Health message, 4-2
HDSL (High bit-rate Digital Subscriber Line) branch
HDSL network. See network interface
LOS (Loss Of Signal) condition
Self-Test Health message, 4-2
Lpbk (Local Loopback) branch
I
ID (Identity) branch
indicators. See LEDs, front panel
IP (Internet Protocol) addressing
M
K
L
maintenance
keypad
messages
LAN Adapter, 1-2, 1-5, 2-3, 2-4, 3-14, F-1
LED Control branch
LED Status branch
LEDs, front panel
alarm
Self-Test Health, 4-2
with ASCII terminal/printer, 1-2, 4-10
status
Self-Test Health, 2-9, 4-2
during power-up self-test, 2-9
MFA (Multiframe Alarm) condition
MIBs, SNMP. See SNMP, MIBs
3360-A2-GB20-20
December 1996
Index-3
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ACCULINK 336x E1 NTU
Port Configuration branch
power input
N
NET (Network) Configuration branch
network interface
connector, 1-4, 1-5, D-13
power-up self-test
primary clock
problem determination. See troubleshooting
protocol, link layer, 3-14, 3-16
Ptrns (Test Patterns) branch
O
P
OOF (Out Of Frame) condition
options, strap. See configuration options
Q
R
QRSS Test, 4-21
RAI (Remote Alarm Indication) condition
PDV (Pulse Density Violation) condition, 3-6
Perf (Performance Report) branch
rate
Point-to-Point Protocol (PPP)
PORT (1–4) interface
rear panel
connectors. See connectors, rear panel
Rel (Release) branch
reset
Index-4
December 1996
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Index
Reset branch
status messages. See messages, status
STest (Self-Test Health) branch
Rlpbk (Remote Loopback) branch
straps. See configuration options
RMA (Remote Multiframe Alarm) condition
synchronous data port. See PORT (1–4) interface
RX network connector, 1-5
T
temperature
Test branch
S
secondary clock
self-test
Serial Line Internet Protocol (SLIP)
test jacks
time-slot 16 (TS16)
timing. See clocking
SNMP (Simple Network Management Protocol)
configuration options
manager, 1-2
MIBs
traps, SNMP. See SNMP, traps
troubleshooting
traps
TStat (Test Status) branch
Stat (Status) branch
TX network connector, 1-5
3360-A2-GB20-20
December 1996
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Index-5
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