ADCP-61-308
Issue 6
May 2000
Soneplex® Loop Extender
Chassis
Installation Manual
1102670 Rev A
ADCP-61-308 • Issue 6 • May 2000 • Preface
COPYRIGHT
 1995, 1996, 1997, 2000, ADC Telecommunications, Inc.
All Rights Reserved
Printed in the U.S.A.
REVISION HISTORY
ISSUE
DATE
REASON FOR CHANGE
2nd Edition, Issue 1
01/1995
Original
2nd Edition, Issue 2
10/1995
Include 19-inch chassis.
2nd Edition, Issue 3
10/1996
Non-technical changes.
2nd Edition, Issue 4
01/1997
Non-technical changes.
2nd Edition, Issue 5
05/1997
Update drain wire grounding information and installation instructions.
Issue 6
05/2000
Update to support modifications to the 23-inch chassis with intake baffle.
LIST OF CHANGES
The technical changes incorporated into this issue are listed below.
SECTION
IDENTIFIER
All
DESCRIPTION OF CHANGE
Add information to support RJ45 jack, WQLX modules, and update format.
TRADEMARK INFORMATION
ADC and ADC Telecommunications are registered trademarks of ADC Telecommunications, Inc.
Soneplex is a registered trademark of ADC Telecommunications, Inc.
DISCLAIMER OF LIABILITY
Contents herein are current as of the date of publication. ADC reserves the right to change the contents without prior notice. In no
event shall ADC be liable for any damages resulting from loss of data, loss of use, or loss of profits and ADC further disclaims
any and all liability for indirect, incidental, special, consequential or other similar damages. This disclaimer of liability applies
to all products, publications and services during and after the warranty period.
This publication may be verified at any time by contacting ADC’s Technical Assistance Center at 1-800-366-3891, extension 3223
(in U.S.A. or Canada) or 952-946-3223 (outside U.S.A. and Canada), or by writing to ADC Telecommunications, Inc., Attn:
Technical Assistance Center, Mail Station #77, P.O. Box 1101, Minneapolis, MN 55440-1101, U.S.A.
ADC Telecommunications, Inc.
P.O. Box 1101, Minneapolis, Minnesota 55440-1101
In U.S.A. and Canada: 1-800-366-3891
Outside U.S.A. and Canada: (952) 938-8080
Fax: (952) 946-3292
Page ii
ADCP-61-308 • Issue 6 • May 2000 • Preface
TABLE OF CONTENTS
Content
Page
FRONT MATTER
ABOUT THIS MANUAL .......................................................................v
RELATED PUBLICATIONS .....................................................................v
ADMONISHMENTS......................................................................... vi
GENERAL SAFETY PRECAUTIONS............................................................... vi
FCC COMPLIANCE STATEMENT ................................................................vii
CERTIFICATION...........................................................................vii
STANDARDS.............................................................................vii
LIST OF ACRONYMS AND ABBREVIATIONS ........................................................ ix
SECTION 1
INTRODUCTION
1
GENERAL......................................................................... 1-1
2
DESCRIPTION ...................................................................... 1-1
SECTION 2
INSTALLATION
1
GENERAL......................................................................... 2-1
2
USING A TOP DOCUMENT .............................................................. 2-1
ALPHABETICAL TASK LIST .................................................................. 2-6
TASK INDEX LIST ..................................................................... IXL-001
CHECK –48 VOLT POWER SUPPLY ......................................................... DLP-613
CONNECT ALARM WIRES ............................................................... DLP-604
CONNECT CABLE ASSEMBLY TO EIA-232 INTERFACE PORT ........................................ DLP-607
CONNECT DS1 EQUIPMENT CABLES ........................................................ DLP-608
CONNECT DS1 FACILITY CABLES .......................................................... DLP-609
CONNECT HDSL FACILITY CABLES ......................................................... DLP-610
CONNECT HOUSEKEEPING AND ACO ALARM WIRES ............................................. DLP-605
CONNECT POWER WIRES ............................................................... DLP-603
CONNECT TX AND RX PAIRS TO EIA-422 INTERFACE PORT ........................................ DLP-606
INSTALL LOOP EXTENDER CHASSIS, INTAKE BAFFLE, AND
FIBER MANAGEMENT BAFFLE IN RACK ................................................. DLP-601
INSTALL LOOP EXTENDER CHASSIS, UNIVERSAL FAN ASSEMBLY, PLENUM FIBER
MANAGEMENT PANELS AND FIBER MANAGEMENT BAFFLE IN RACK ............................. DLP-602
INSTALL SONEPLEX LOOP EXTENDER CHASSIS ................................................ NTP-002
RJ45 ETHERNET CONNECTION ........................................................... DLP-614
ROUTE FIBER OPTIC PATCH CORDS TO LOOP EXTENDER CHASSIS ................................... DLP-611
TEST INSTALLED CABLES FOR CONTINUITY CHASSIS ............................................ DLP-612
UNPACK SYSTEM COMPONENTS FROM SHIPPING CARTON, VERIFY CONTENTS, AND
INSPECT FOR DAMAGE ........................................................... DLP-600
Page iii
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
TABLE OF CONTENTS
Content
Page
SECTION 3
GENERAL INFORMATION
1
WARRANTY/SOFTWARE ...............................................................3-1
2
REPAIR/ADVANCE REPLACEMENT POLICY ...................................................3-1
3
REPAIR CHARGES ...................................................................3-2
4
REPLACEMENT/SPARE PRODUCTS ........................................................3-2
5
RETURNED MATERIAL ................................................................3-2
6
CUSTOMER INFORMATION AND ASSISTANCE .................................................3-3
Page iv
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
ABOUT THIS MANUAL
This installation manual provides detailed procedures for installing a 23-inch or 19-inch
Soneplex® Loop Extender mounting shelf (or chassis) that is used for distributing DS1 HiCap
circuits for local access using HDSL, fiber optic, and T1 carrier technology. The purpose of
this manual is to provide technicians and installation groups with specific procedures for
completing their assigned tasks. A complete description of the Soneplex Loop Extender
chassis as well as information related to operation, maintenance, engineering, and planning is
provided in separate publications, as shown below.
RELATED PUBLICATIONS
Listed below are related manuals and their publication numbers. Copies of these publications
can be ordered by contacting the ADC Technical Assistance Center at 1-800-366-3891
(in U.S.A. or Canada) or 952-946-3000, extension 3223 (outside U.S.A. and Canada).
Title/Description
ADCP Number
Quad Loop Extender (QLX) and Remote Terminal System Description
WDM Quad Loop Extender (WQLX) Central Office and Remote
Operation, and Maintenance Manual
Quad Loop Extender and Remote Terminal Operation, and
Maintenance Manual
Soneplex Broadband System Description Manual (V5)
Soneplex Broadband System Engineering Design and
Application Manual (V5)
Soneplex Broadband System Operation and Maintenance Manual (V5)
Soneplex Version D, E, and G HLXR Remote System Operation and
Maintenance Manual
Soneplex Loop Extender Engineering Design and Application Manual (V5)
Soneplex Loop Extender General Description Manual (V5)
Soneplex Loop Extender Operation and Maintenance User Manual (V5)
Soneplex Shelf Controller Unit (SCU) Operation and
Maintenance User Manual
Soneplex Shelf Controller Unit (SCU) System Description
and Engineering Guide
Soneplex System TL1 Interface Specification Manual
61-151
61-174
61-152
61-470
61-472
61-471
61-314
61-316
61-317
61-467
61-756
61-758
61-419
Page v
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
ADMONISHMENTS
Important safety admonishments are used throughout this manual to warn of possible hazards
to persons or equipment. An admonishment identifies a possible hazard and then explains
what may happen if the hazard is not avoided. The admonishments — in the form of Dangers,
Warnings, and Cautions — must be followed at all times. These warnings are flagged by use
of the triangular alert icon (seen below), and are listed in descending order of severity of
injury or damage and likelihood of occurrence.
Danger: Danger is used to indicate the presence of a hazard that will cause severe personal
injury, death, or substantial property damage if the hazard is not avoided.
Warning: Warning is used to indicate the presence of a hazard that can cause severe
personal injury, death, or substantial property damage if the hazard is not avoided.
Caution: Caution is used to indicate the presence of a hazard that will or can cause minor
personal injury or property damage if the hazard is not avoided.
GENERAL SAFETY PRECAUTIONS
Danger: To avoid electric shock, be careful when working near HDSL and HDSL2 loop
connections or telecommunications circuits. An electrical potential of ±130 volts exists on
HDSL and Version B HDSL2 loop connections and telecommunications circuits. Coming in
contact with this high electrical potential will result in death or severe personal injury.
Caution: Electronic modules can be damaged by electrical static discharge (ESD). Before
handling modules, wear an anti-static discharge wrist strap to prevent damage to electronic
components. Place modules in anti-static packing material when transporting or storing.
When working on modules, always place them on an approved anti-static mat that is
electrically grounded.
Warning: To prevent electrical shock, never install telephone equipment in a wet location or
during a lightning storm. When installing or modifying telephone lines, disconnect lines on
the network side before working with uninsulated lines or terminals.
Verify that the far end optical transmitter is off before connecting fiber optic patch cords to
outside plant cables at the fiber distribution device. Invisible laser radiation may cause eye
injury if viewed directly. Do not look into the end of a connector if the far end fiber optic
transmitter is active.
Page vi
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
FCC COMPLIANCE STATEMENT
The products described in this manual have been certified to comply with the requirements for
class A computing devices per part 15 of the FCC regulations.
Warning: This equipment generates, uses, and can radiate radio frequency energy and if not
installed and used in accordance with the instruction manual, may cause interference to radio
communications. It has been tested and found to comply with limits for a Class A digital
device pursuant to Subpart A of Part 15 of FCC Rules, which are designed to provide
reasonable protection against such interference when operated in a commercial environment.
Operation of this equipment in a residential area is likely to cause interference to TV and
radio reception in which case the user, at their own expense, will be required to take whatever
measures may be required to correct the interference.
This equipment does not exceed Class A limits for radio emission for digital apparatus, set out
in the radio interference regulation of the authorization methods of Industry Canada.
Operation in a residential area may cause unacceptable interference to TV and radio
reception requiring the owner or operator to take whatever steps are necessary to correct the
interference.
This product conforms to all applicable standards of 21 CFR 1040.
CERTIFICATION
The products described in this manual have been tested and found to comply with the
requirements of UL 1459.
STANDARDS
The following listing is a bibliography of applicable ANSI and Bellcore documents:
ANSI T1.102-1987
Digital Hierarchy-Electrical Interfaces
ANSI T1.403-1989
Carrier To Customer Installation - DS1 Metallic Interface,
February 22, 1989
ANSI T1.404-1989
Carrier-to-Customer Installation - DS3 Metallic Interface
Specification
ANSI T1.601-1991
ISDN Basic Access Interface for Use on Metallic Loops for
Application on the Network Side of the NT, January 9, 1991
ANSI T1E1.4/92-002R1
Study of the Feasibility and Advisability of digital Subscriber
Lines Operating at Rates Substantially in Excess of the Basic Rate
ANSI T1.231-1993
Layer 1 In-Service Digital Transmission Performance Monitoring
(T1M1.3/91-00323, June 1991)
Page vii
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
TA-NWT-001210
Generic Requirements For High Bit Rate Digital Subscriber Lines,
Issue 1, October 1991
FA-NWT-001211
Network Operations Framework Generic Requirements for
High Bit Rate Digital Subscriber Lines, Issue 1, January 1992
PUB 62411
High Capacity Digital Service Channel Interface Specification
TR-NPL-000054
High Capacity Digital Service (1.544 Mb/s) Interface Generic
Requirements For End Users, Issue 1, April 1989
GR-63-CORE
Network Equipment-Building (NEBS) Generic Equipment
Requirements: Physical Protection, Issue 1, October 1995
GR-1089-CORE
Electromagnetic Compatibility and Electrical Safety Generic
Criteria For Network Telecommunication Equipment, Issue 2,
December 1997
TR-TSY-000057
Functional Criteria for Digital Loop Carrier Systems, Issue 1,
4/87 6/88
TR-TSY-000170
Digital Cross-Connect System Requirements And Objectives,
Issue 1, November 1985
TR-TSY-000253
Synchronous Optical Network (SONET) Transport Systems:
Common Generic Criteria, Issue 1, September 1989
TR-TSY-000312
Functional Criteria For the DS1 Interface Connector, Issue 1,
March 1988
TR-TSY-000474
OTGR: Network Maintenance: Network Element, Section 4,
Issue 3, November 1989
TR-TSY-000476
OTGR: Network Maintenance: Access and Testing, Section 6,
Issue 3, January 1990
GR-487-CORE
Generic Requirements for Electronic Equipment Cabinets,
Issue 1, June 1996
GR-499-CORE
Transport Systems Generic Requirements (TSGR): Common
Requirements, Issue 1, December 1995
TR-TSY-000754
ISDN Primary Rate Access Transport System Requirements,
Issue 1, July 1990
TR-TSY-000929
Reliability and Quality Measurements for Telecommunications
Systems (RQMS), Issue 1, June 1990
Page viii
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Preface
LIST OF ACRONYMS AND ABBREVIATIONS
The acronyms and abbreviations used in this manual are detailed in the following list:
ALM
AIS
AMI
AWG
ANSI
APU
BPV
B8ZS
CSA
CSU
CO
CPE
CRC
CI
CKT
DLP
DLX
DS1
ESF
FCC
GND
HDSL
HLXC
HLXR
IXL
LED
LEC
MDF
MON
NTP
NID
OSS
QLX
RCV
RLX
SF
TAP
TOP
XMT
Alarm
Alarm Indication Signal
Alternate Mark Inversion
American Wire Gauge
American National Standards Institute
Alarm Processor Unit Module
Bipolar Violation
Bipolar Eight Zero Substitution
Carrier Serving Area
Channel Service Unit
Central Office
Customer Premise Equipment
Cyclic Redundancy Code
Customer Interface
Circuit
Detailed Level Procedure
DS1 Loop Extender
Digital Signal - Level 1
Extended Super Frame
Federal Communications Commission
Ground
High Bit Rate Digital Subscriber Line
HDSL Loop Extender - CO Module
HDSL Loop Extender - Remote Module
Task Index List
Light Emitting Diode
Local Exchange Carrier
Main Distribution Frame
Monitor
Non Trouble-Clearing Procedure
Network Interface Device
Operations Support System
Quad Loop Extender Module
Receive
Repeater Loop Extender
Super Frame
Trouble Analysis Practice
Task Oriented Practice
Transmit
Page ix
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 1: Introduction
SECTION 1: INTRODUCTION
Content
1
Page
1
GENERAL......................................................................... 1-1
2
DESCRIPTION ...................................................................... 1-1
GENERAL
The Soneplex Loop Extender chassis contains modules providing an electrical interface to the
modules, and provide connection points for the wiring. A chassis consists of a sheet metal
enclosure, printed circuit board backplane, and front and rear covers. Card edge guides within
the enclosure ensure proper installation alignment of the modules. The backplane provides
connections for both internal (module-to-module) and external electrical interfaces. All
connectors and terminal blocks are mounted on the backplane. Each chassis backplane is prewired for the maximum number of modules.
The entry points for equipment and power cables are at the rear of the chassis. Wire wrap pins are
provided for signal, alarm, and RS-422 wiring connections. DB-25 socket connectors are provided
for RS-232 and X.25 cable connections. A screw-down strip with terminals for both an A and a B
power source is provided for the power wiring connections. An optional RJ jack is available on the
rear for an Ethernet cable. A kit for attaching the RJ jack to a Loop Extender chassis may be
purchased separately. A chassis is powered by a –48 VDC office battery and is designed to operate
in either a central office or an unconditioned outside plant enclosure.
2
DESCRIPTION
A removable cover is provided at both the front and rear of the chassis. The front cover is
hinged at the bottom so it can be opened for access to the modules, and it can also be removed
from the chassis if required. The front cover protects the installed modules and allows alarm
indications to be visible. The rear cover protects the wiring connections and is attached to the
rear of chassis with screws. A jack for grounding ESD wrist straps is provided at the front of
the chassis.
The Soneplex Loop Extender chassis is available in two sizes for mounting in either a 19-inch
or a 23-inch WECO or EIA equipment rack. The chassis is shown in Figure 1-1.
Page 1-1
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 1: Introduction
5.95 IN
T
21.59 IN
(23-IN CHASSIS)
LOOP
ETEN
DER
12.0 IN
18.252 IN
(19-IN CHASSIS)
4160-B
Figure 1-1. Soneplex Loop Extender Chassis
The 19-inch Loop Extender chassis interfaces with up to 20 DS1 lines from central office
network equipment. It has 20 slots for the low-speed modules, one slot for the SCU or MPU,
and one slot for the APU. The mounting slots are divided into five groups with four slots per
group, as shown in Figure 1-2.
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
4-1
4-2
4-3
4-4
5-1
5-2
5-3
5-4
SCU
S
C
U
STATUS
O
S
S
CR
ETH
MJ
X.25
MN
C
R
A
F
T
ACO
PWR
RESET
HSKP
RMT
ALM
DISP RMT
LMPTST
13298-A
Figure 1-2. 19-Inch Soneplex Loop Extender Chassis Slots
The 23-inch Loop Extender chassis interfaces with up to 28 DS1 lines from central office
network equipment. It has 28 slots for the low-speed modules, one slot for the SCU or MPU,
and one slot for the APU. The mounting slots are divided into five groups with four slots per
group, as shown in Figure 1-3.
In both chassis, the two mounting slots on the far right are reserved for the APU and SCU or MPU.
Page 1-2
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 1: Introduction
1-1
1-2
1-3
1-4
2-1
2-2
2-3
2-4
3-1
3-2
3-3
3-4
4-1
4-2
4-3
4-4
7-1
7-2
7-3
7-4
6-1
6-2
6-3
6-4
5-1
5-2
5-3
5-4
SCU
S
C
U
STATUS
O
S
S
CR
ETH
MJ
X.25
MN
C
R
A
F
T
ACO
PWR
RESET
HSKP
RMT
ALM
DISP RMT
LMPTST
13154-B
Figure 1-3. 23-Inch Soneplex Loop Extender Chassis Slots
Electrical connections to either chassis are made via wire wrap terminals, screw terminals, or
female DB or BNC connectors on the backplane of the chassis. Fiber optic cable connections in the
chassis are made directly to the QLX or WQLXC module. A fiber management baffle or plenum
assembly is mounted above the chassis to route and protect fiber cables. A 23-inch Loop Extender
chassis with the heat baffle/fiber optics management and intake baffle is shown in Figure 1-4. In
some applications a fan pack and plenums are required to assure adequate cooling.
MOUNTING
HOLES FOR
2-INCH RECESS
MOUNTING
HOLES FOR
5-INCH RECESS
MOUNTING
BRACKETS
HEAT BAFFLE/
FIBER
MANAGEMENT
PANEL
MOUNTING
SHELF
MOUNTING
HOLES FOR
5-INCH RECESS
INTAKE BAFFLE
(23-IN. LEC ONLY)
14214-A
MOUNTING
HOLES FOR
2-INCH RECESS
Figure 1-4. 23-Inch Soneplex Loop Extender Chassis
Page 1-3
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
SECTION 2: INSTALLATION
Content
Page
1
GENERAL......................................................................... 2-1
2
USING A TOP DOCUMENT .............................................................. 2-1
ALPHABETICAL TASK LIST .................................................................. 2-6
TASK INDEX LIST ..................................................................... IXL-001
1
GENERAL
Section 2 provides the installation procedures for the 23-inch and 19-inch Soneplex Loop
Extender chassis. If you are unfamiliar with the Soneplex Loop Extender terms and
components, read the Description Manual before continuing with the installation.
As defined in this manual, installation consists of the following:
• Installing the chassis in the equipment rack.
• Connecting the various cables, wires, and pairs to the chassis backplane.
• Routing patch cords to the chassis.
• Verifying continuity of the cables and pairs.
• Checking the power supply output.
A rear view of the 23-inch chassis is shown in Figure 2-1, Figure 2-2 shows a rear view of the
19-inch chassis, and a diagram of the signal cabling is shown in Figure 2-3.
2
USING A TOP DOCUMENT
The procedures in this section are written in the Task Oriented Practice (TOP) format. The
TOP method of presenting information provides step-by-step instructions for the successful
completion of the indicated task. To find the instructions for performing chassis installation,
proceed as follows:
1. Find the task to be performed in the Task Index List (IXL-001).
2. Locate the specified director level procedure. All procedures are in numerical order,
regardless of type. The TOP procedures in this manual are of the following two types:
(a) Non Trouble-Clearing Procedure (NTP) - A director level procedure that lists
normal work items to be performed that are not trouble clearing procedures.
(b) Detailed Level Procedure (DLP) - Detailed step-by-step instructions or procedures.
Page 2-1
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
3. Perform all the items in the director level procedure (NTP) in the order listed. When the
director level procedure is finished, the task is completed. When more detailed
information is required, the reader will be sent to a Detailed Level Procedure (DLP). A
Detail Level Procedure may also direct the reader to another Detail Level Procedure.
Note: When a Detailed Level Procedure is complete, return to the procedure that
preceded the Detailed Level Procedure.
Note: If one director level procedure sends you to another director level procedure, in most
cases you do not return to the first director level procedure after finishing the second.
4. In some procedures you are asked to verify that certain things have happened.
Page 2-2
© 2000, ADC Telecommunications, Inc.
EQUIP
LINE
A
L
A
R
M
T
R
T1
R1
T
R
T1
R1
7-3
T
R
T1
R1
T
R
T1
L2
R1
L1
7-2
T
R
T1
R1
T
R
T1
L2
R1
L1
7-1
FACILITY CABLES
T
R
T1
R1
T
R
T1
L2
R1
L1
6-4
T
R
T1
R1
T
R
T1
L2
R1
L1
ALARMS (DRY
RELAY CONTACT)
EQUIPMENT CABLES
L1
T
R
T1
L2
R1
L1
NO
COM
NC
T
R
T1
L2
R1
7-4
SHIELD GND
SHIELD
GROUND
CR
VIS
CR
AU
M D
JV
IS
M
JA
U
M D
N
V
M IS
N
A
RT UD
M
AC
O
6-3
T
R
T1
R1
T
R
T1
L2
R1
L1
6-2
T
R
T1
R1
T
R
T1
L2
R1
L1
HKSP IN
6-1
1 2 3 4 5 6 7 8
T
R
T1
R1
T
R
T1
L2
R1
L1
ACO
IN
5-4
T
R
T1
R1
T
R
T1
L2
R1
L1
HOUSEKEEPING
ALARMS
5-3
T
R
T1
R1
T
R
T1
L2
R1
L1
+ – + –
RX TX
5-2
T
R
T1
R1
T
R
T1
L2
R1
L1
PORT 1
PORT 4
5-1
T
R
T1
R1
T
R
T1
L2
R1
L1
RS422
4-4
T
R
T1
R1
T
R
T1
L2
R1
L1
PORT 4 (TOP)
PORT 1 (BOTTOM)
4-3
T
R
T1
R1
T
R
T1
L2
R1
L1
4-2
T
R
T1
R1
T
R
T1
L2
R1
L1
4-1
T
R
T1
R1
T
R
T1
L2
R1
L1
PORT2 RS232
DTE
PORT 2
3-4
T
R
T1
R1
T
R
T1
L2
R1
L1
3-3
T
R
T1
R1
T
R
T1
L2
R1
L1
3-2
PORT 3
T
R
T1
R1
T
R
T1
L2
R1
L1
3-1
T
R
T1
R1
T
R
T1
L2
R1
L1
PORT3 RS232
DTE
2-4
T
R
T1
R1
T
R
T1
L2
R1
L1
2-3
T
R
T1
R1
T
R
T1
L2
R1
L1
2-2
T
R
T1
R1
T
R
T1
L2
R1
L1
2-1
B
–48 V
A
RTN
T
R
T1
R1
T
R
T1
L2
R1
L1
A
1-4
B
T
R
T1
R1
T
R
T1
L2
R1
L1
1-3
T
R
T1
R1
T
R
T1
L2
R1
L1
1-2
1-1
3603-G
T
R
T1
R1
T
R
T1
L2
R1
L1
SHIELD GND
FRAME
GND
SHIELD
GROUND
FRAME GROUND STUD
POWER TERMINAL BLOCK
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
Figure 2-1. 23-Inch Mounting Shelf Rear View
Page 2-3
© 2000, ADC Telecommunications, Inc.
Page 2-4
© 2000, ADC Telecommunications, Inc.
T
R
T1
R1
T
R
T1
R1
L1
T
R
T1
L2
R1
5-4
5-3
T
R
T1
R1
T
R
T1
L2
R1
L1
5-2
T
R
T1
R1
T
R
T1
L2
R1
L1
S D S D IS UD
VI AU J VI J AU N V N A T O
CR CR M M M M RM AC
T
R
T1
L2
R1
L1
EQUIP
LINE
SHIELD GND
A
NC
L
A COM
R NO
M
5-1
T
R
T1
R1
T
R
T1
L2
R1
L1
4-4
T
R
T1
R1
T
R
T1
L2
R1
L1
4-3
T
R
T1
R1
T
R
T1
L2
R1
L1
HSKP IN
4-2
T
R
T1
R1
T
R
T1
L2
R1
L1
ACO IN
1 2 3 4 5 6 7 8
4-1
T
R
T1
R1
T
R
T1
L2
R1
L1
RX
3-4
T
R
T1
R1
T
R
T1
L2
R1
L1
TX
+–+–
3-3
T
R
T1
R1
3-2
RS422
T
R
T1
L2
R1
L1
PORT 1
PORT 4
T
R
T1
R1
T
R
T1
L2
R1
L1
3-1
T
R
T1
R1
T
R
T1
L2
R1
L1
2-4
T
R
T1
R1
2-3
DTE
T
R
T1
L2
R1
L1
PORT 2
T
R
T1
R1
T
R
T1
L2
R1
L1
2-2
T
R
T1
R1
T
R
T1
L2
R1
L1
RS-232
2-1
T
R
T1
R1
T
R
T1
L2
R1
L1
1-4
T
R
T1
R1
T
R
T1
L2
R1
L1
1-3
PORT 3
T
R
T1
R1
T
R
T1
L2
R1
L1
DTE
1-2
T
R
T1
R1
T
R
T1
L2
R1
L1
1-1
RS-232
RTN
–48V
7125-F
B
A
B
A
FRAME GND
SHIELD GND
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
Figure 2-2. 19-Inch Mounting Shelf Rear View
DSX-1 BAY
CROSS-CONNECT
WIRING
EQUIPMENT TERMINATIONS
DSX-1 BAY
CROSS-CONNECT
WIRING
EQUIPMENT TERMINATIONS
SONEPLEX
LOOP EXTENDER
RLX OR HLXC
INSTALLATION
DS1 EQUIPMENT
CABLES
SONEPLEX
LOOP EXTENDER
QLX INSTALLATION
CABLING DIAGRAM FOR
QLX INSTALLATION
DS1 EQUIPMENT
CABLES
CABLING DIAGRAM FOR
RLX OR HLXC INSTALLATION
CROSS-CONNECT
WIRING
OUTSIDE PLANT
TERMINATIONS
CROSS-CONNECT
PATCH CORDS
OUTSIDE PLANT
TERMINATIONS
FIBER DISTRIBUTION FRAME (FDF)
FIBER OPTIC
PATCH CORDS
EQUIPMENT
TERMINATIONS
MAIN DISTRIBUTION FRAME (MDF)
HDSL OR T1
FACILITIES CABLES
EQUIPMENT
TERMINATIONS
5168-C
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
Figure 2-3. Cabling Diagrams
Page 2-5
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
ALPHABETICAL TASK LIST
CHECK –48 VOLT POWER SUPPLY ......................................................... DLP-613
CONNECT ALARM WIRES................................................................ DLP-604
CONNECT CABLE ASSEMBLY TO EIA-232 INTERFACE PORT......................................... DLP-607
CONNECT DS1 EQUIPMENT CABLES ........................................................ DLP-608
CONNECT DS1 FACILITY CABLES .......................................................... DLP-609
CONNECT HDSL FACILITY CABLES ......................................................... DLP-610
CONNECT HOUSEKEEPING AND ACO ALARM WIRES ............................................. DLP-605
CONNECT POWER WIRES ............................................................... DLP-603
CONNECT TX AND RX PAIRS TO EIA-422 INTERFACE PORT ......................................... DLP-606
INSTALL LOOP EXTENDER CHASSIS, INTAKE BAFFLE, AND
FIBER MANAGEMENT BAFFLE IN RACK ................................................. DLP-601
INSTALL LOOP EXTENDER CHASSIS, UNIVERSAL FAN ASSEMBLY, PLENUM FIBER
MANAGEMENT PANELS AND FIBER MANAGEMENT BAFFLE IN RACK ............................. DLP-602
INSTALL SONEPLEX LOOP EXTENDER CHASSIS ................................................ NTP-002
RJ45 ETHERNET CONNECTION ............................................................ DLP-614
ROUTE FIBER OPTIC PATCH CORDS TO LOOP EXTENDER CHASSIS ................................... DLP-611
TEST INSTALLED CABLES FOR CONTINUITY CHASSIS ............................................ DLP-612
UNPACK SYSTEM COMPONENTS FROM SHIPPING CARTON, VERIFY CONTENTS, AND
INSPECT FOR DAMAGE ............................................................ DLP-600
Page 2-6
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
IXL-001
Page 1 of 1
TASK INDEX LIST
Find Your Job in the List Below
Then Go To
INSTALL SONEPLEX LOOP EXTENDER CHASSIS .................................................. NTP-002
UNPACK SYSTEM COMPONENTS FROM SHIPPING CARTON, VERIFY CONTENTS, AND
INSPECT FOR DAMAGE .............................................................. DLP-600
INSTALL LOOP EXTENDER CHASSIS, INTAKE BAFFLE, AND
FIBER MANAGEMENT BAFFLE IN RACK ................................................... DLP-601
INSTALL LOOP EXTENDER CHASSIS, UNIVERSAL FAN ASSEMBLY, PLENUM FIBER
MANAGEMENT PANELS AND FIBER MANAGEMENT BAFFLE IN RACK ............................... DLP-602
CONNECT POWER WIRES ................................................................. DLP-603
CONNECT ALARM WIRES.................................................................. DLP-604
CONNECT HOUSEKEEPING AND ACO ALARM WIRES ............................................... DLP-605
CONNECT TX AND RX PAIRS TO EIA-422 INTERFACE PORT ........................................... DLP-606
CONNECT CABLE ASSEMBLY TO EIA-232 INTERFACE PORT........................................... DLP-607
CONNECT DS1 EQUIPMENT CABLES .......................................................... DLP-608
CONNECT DS1 FACILITY CABLES ............................................................ DLP-609
CONNECT HDSL FACILITY CABLES ........................................................... DLP-610
RJ45 ETHERNET CONNECTION .............................................................. DLP-614
ROUTE FIBER OPTIC PATCH CORDS TO LOOP EXTENDER CHASSIS ..................................... DLP-611
TEST INSTALLED CABLES FOR CONTINUITY CHASSIS .............................................. DLP-612
CHECK –48 VOLT POWER SUPPLY ........................................................... DLP-613
2-7
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
2-8
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
NTP-002
Page 1 of 4
INSTALL SONEPLEX LOOP EXTENDER CHASSIS
Do Items Below In The Order Listed
For Details Go To
Summary: This procedure provides instructions for installing the Soneplex Loop Extender
chassis. Installation includes unpacking and inspecting the equipment, installing the chassis in
the equipment rack, connecting the signal, power, alarm, and frame ground wires, routing fiber
optic patch cords (if used), and testing for continuity.
Danger: To avoid electric shock, be careful when working near HDSL and HDSL2 loop
connections or telecommunications circuits. An electrical potential of ±130 volts exists
on HDSL and Version B HDSL2 loop connections and telecommunications circuits.
Coming in contact with this high electrical potential will result in death or severe
personal injury.
Warning: Never install telephone equipment in a wet location or during a lightning
storm. When installing or modifying telephone lines, disconnect lines at the network
interface before working with uninsulated lines or terminals to prevent electrical shock.
1. Obtain the tools and equipment listed below:
•
#2 or #3 Phillips-head screwdriver
•
Flat bladed screwdriver
•
Diagonal wire cutter
•
Wire stripper
•
Wire-wrap tool
•
Box cutter
•
Multimeter capable of testing for continuity and measuring 40 to 60 volts DC
2. Unpack the chassis and associated fiber management baffle (or, fan
assembly and plenum panel) and intake baffle from the shipping
carton(s), verify the contents, and inspect for damage.
DLP-600
3. Is the chassis going to contain Version A or C HLXC modules and
other low speed modules?
If YES, First install a universal fan assembly below the mounting
space for the loop extender chassis, then install the chassis and
(directly above it) either a plenum panel or (if the chassis is the top
one in a stack in a given bay) a fiber chassis and (directly above it)
either a plenum panel or (if the chassis is the top one in a stack in a
given bay) a fiber management baffle.
DLP-602
2-9
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
NTP-002
Page 2 of 4
Is the chassis going to contain Version D or later HLXC modules,
Version B or later H2LXC modules, or other low speed modules?
If YES, Place the chassis in its assigned mounting space in the
equipment rack and secure it to the rack. Install a fiber management
baffle above the chassis. If installing 23-inch chassises, place an intake
baffle under only the bottom chassis in a multiple stack and a heat
baffle/fiber optic management on top of each chassis in the stack.
DLP-601
Note: Soneplex HEMI (High Power HDSL) modules used to
provide span power to a remote DLC (Digital Loop Carrier) may
also be installed in a 23-inch chassis. The HEMI supports one HRX
(HDSL repeater) installed in the transmission path to the remote.
Note: Do not install the HEMI in any other chassis than the 23inch Loop Extender chassis. Each HEMI occupies 3 slots in the
chassis. Up to eight HEMIs can be installed in a 23-inch Loop
Extender chassis (catalog # SPX-FRM1A2).
Using more than four HEMIs in a Loop Extender chassis other
than catalog # SPX-FRM1A2 may result in a backplane failure.
Note: The cabling distance from the loop extender chassis to the
DSX bay should not exceed 655 feet.
4. Using AWG 16 solid copper wire, connect the frame ground wire
to the FRM GND terminal stud (adjacent to the power terminal
block) on the chassis backplane.
5. Insert power wires through ferrite block (provided separately) and
then connect the power wires to the screw-down terminal block on
the chassis backplane. Terminals for connecting both an A and B
power source are provided.
DLP-603
6. Connect the alarm wires to the ALARM wire wrap pins on the
chassis backplane. Normally open (NO) and normally closed (NC)
contacts are provided for critical, major, and minor (both visual
and audible) alarms. Contacts are also provided for a remote alarm
indicator and an alarm cut-off indicator.
DLP-604
2-10
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
NTP-002
Page 3 of 4
7. Connect the housekeeping alarm wires to the HSKP wire wrap pins
on the chassis backplane. Eight pairs of pins for housekeeping
alarms and one set of pins for an external alarm cutoff switch are
provided.
DLP-605
8. If a rear TBOS interface is called for in the work order, connect the
wiring to either Port 1 or Port 3 (as specified in work order) on the
chassis backplane. Port 1 is an RS (EIA)-422 communications port.
Port 3 is an RS (EIA)-232D DTE communications port.
Connect to Port 1:
Connect to Port 3:
DLP-606
DLP-607
9. If a rear TL1 interface is called for in the work order, connect the
cable to either Port 2 or Port 3 (as specified in work order) on the
chassis backplane. Ports 2 and 3 are RS (EIA)-232D DTE
communications ports.
DLP-607
10. If an X.25 interface is called for in the work order, connect the
wiring to Port 3 on the chassis backplane. Port 3 is an RS (EIA)232D DTE communications port.
DLP-607
11. If a rear CRAFT interface is called for in the work order, connect
the wiring to either Port 2 or Port 3 (as specified in work order) on
the chassis backplane. Ports 2 and 3 are RS (EIA)-232D DTE
communications ports.
DLP-607
12. Connect the DS1 equipment cables to the EQUIP wire wrap pins
on the chassis backplane. Two pairs of wire wrap pins (T, R, T1,
R1) are provided for each mounting slot.
DLP-608
13. If specified in the work order, connect the DS1 facility cables to
the LINE wire wrap pins on the chassis backplane. Two pairs of
wire wrap pins (T, R, T1, R1) are provided for each mounting slot.
DLP-609
Note: Connections for DS1 facility cables are only required
when RLX plug-in modules (which are used in T1 transmissions
from the chassis to the CPE) will be installed in the chassis.
14. If specified in the work order, connect the HDSL facility cables to
the LINE wire wrap pins on the chassis backplane. Two pairs of
wire wrap pins (T, R, T1, R1) are provided for each mounting slot.
DLP-610
Note: Connections for HDSL facility cables are only required when
HLXC or H2LXC plug-in modules will be installed in the chassis.
2-11
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
NTP-002
Page 4 of 4
15. If specified in the work order, route the fiber optic patch cords to
the chassis.
DLP-611
Note: Fiber optic patch cords are only required when QLX or
WQLX plug-in modules will be installed in the chassis.
16. If specified in the work order, install and connect the RJ45
Ethernet jack.
DLP-614
17. Test all installed cables (i.e., cable pairs) for continuity.
DLP-612
18. Verify that –48 Vdc is present at the power supply terminal block
located on the chassis backplane.
DLP-613
2-12
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-600
Page 1 of 1
UNPACK SYSTEM COMPONENTS FROM SHIPPING CARTON,
VERIFY CONTENTS, AND INSPECT FOR DAMAGE
Summary: This procedure provides instructions for opening the shipping cartons, verifying that
the correct components and quantities were received, and checking for damage.
Caution: Electronic modules can be damaged by electrical static discharge (ESD).
Before handling modules, wear an anti-static discharge wrist strap to prevent damage to
electronic components. Place modules in anti-static packing material when transporting
or storing. When working on modules, always place them on an approved anti-static mat
that is electrically grounded.
1. Open the shipping carton(s) and carefully unpack the equipment from the protective
packing material.
2. Check each component against the packing list to verify that the correct catalog numbers and
quantities were received. If there are any irregularities, contact ADC Telecommunications
(see General Information Section at the end of this manual).
3. Check each component for broken or missing parts. If there is any damage, file a claim with the
commercial carrier and contact ADC Telecommunications (see General Information Section at
the end of this manual) to reorder any components that require replacement.
Stop! You have completed this procedure.
Page 2-13
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-601
Page 1 of 2
INSTALL LOOP EXTENDER CHASSIS, INTAKE BAFFLE, AND
FIBER MANAGEMENT BAFFLE IN RACK
Summary: This procedure provides instructions for installing the loop extender chassis in an
EIA or WECO 23-inch or 19-inch equipment rack. The mounting brackets are adjustable to
permit the chassis to be recessed either two inches or five inches. When installing the first 23inch LEC in a rack secure the intake baffle to the equipment rack in the mounting space directly
below the first LEC in the rack.
Warning: To prevent electrical shock, never install telephone equipment in a wet
location or during a lightning storm. When installing or modifying telephone lines,
disconnect lines on the network side before working with uninsulated lines or terminals.
1. Check the work order to determine if the loop extender chassis should be installed with a 2inch or 5-inch recess. If a 5-inch recess is specified, proceed to step 4. If a 2-inch recess is
specified, remove the screws that secure the mounting brackets to the sides of the chassis
and remove each bracket from the chassis.
2. Align each bracket with the appropriate set of bracket mounting holes on the side of the
loop extender chassis as shown in Figure 601-1.
3. Secure the mounting brackets to the sides of the loop extender chassis using the screws
removed in step 1.
4. Locate the equipment rack mounting space that is specified for the loop extender chassis.
Note: The cabling distance from the loop extender chassis to the DSX bay should not
exceed 655 feet.
5. Place the loop extender chassis in the assigned mounting space and align the holes in the
mounting brackets with the holes in the equipment rack.
Note: The loop extender chassis and baffle require 10 inches of vertical rack space for
installation. When installed in a WECO rack, five 2.0-inch mounting spaces (10.0 inches
of vertical space) are required for mounting. When installed in an EIA rack, a total of six
1.75-inch mounting spaces (10.5 inches of vertical space) are required for mounting. The
1/2-inch gap that remains when the loop extender chassis and baffle are mounted in an
EIA rack should be placed below the chassis.
6. Secure the mounting brackets to the equipment rack using the #12 machine screws provided.
7. Secure the baffle to the equipment rack in the mounting space directly above the loop
extender chassis.
Stop! You have completed this procedure.
Page 2-14
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-601
Page 2 of 2
MOUNTING
HOLES FOR
2-INCH RECESS
MOUNTING
HOLES FOR
5-INCH RECESS
MOUNTING
BRACKETS
HEAT BAFFLE/
FIBER
MANAGEMENT
PANEL
MOUNTING
SHELF
MOUNTING
HOLES FOR
5-INCH RECESS
INTAKE BAFFLE
(23-IN. LEC ONLY)
14214-A
MOUNTING
HOLES FOR
2-INCH RECESS
Figure 601-1. 23-Inch Loop Extender Chassis and Baffle
Page 2-15
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-602
Page 1 of 3
INSTALL LOOP EXTENDER CHASSIS, UNIVERSAL FAN ASSEMBLY,
PLENUM FIBER MANAGEMENT PANELS AND
FIBER MANAGEMENT BAFFLE IN RACK
Summary: This procedure provides instructions for installing a 23-inch Loop Extender chassis
and related components in an EIA or WECO 23-inch equipment rack. It does not apply to the 19inch Loop Extender chassis.
Note: A universal fan assembly and associated plenum fiber management panel are
required only if a chassis is scheduled to be loaded with two or more C1 HDSL modules
or a combination of C1 HDSL modules and other low speed modules.
Note: In a "stack" of two, three, or four (max.) Soneplex Loop Extender Chassis, a
universal fan assembly must be mounted directly under the bottom chassis in the stack
(the fan's mounting brackets provide a 1.25-inch opening below the fan for air intake).
Plenum panels must be installed between each loop extender chassis in the stack (see
Figure 602-1) and a fiber management baffle must be installed above the top chassis to
direct the exhaust air behind the rack.
To prevent electrical shock, never install telephone equipment in a wet location or
during a lightning storm. When installing or modifying telephone lines, disconnect lines
on the network side before working with uninsulated lines or terminals.
1. Check the work order to determine if the loop extender chassis will be loaded with two or
more C1 HLXC modules. If so, then install a universal fan assembly immediately below the
rack mounting space designated for the loop extender chassis (or, alternately, below the
bottom loop extender chassis in a "stack" in a given bay). The fan assembly includes
mounting brackets that allow it to be installed with either a 5-inch or 2-inch recess. If a 5inch recess is specified, proceed to step 4. If a 2-inch recess is specified, remove the screws
that secure the mounting brackets to the sides of the chassis and temporarily remove each
bracket from the chassis.
2. Align each bracket with the appropriate set of bracket mounting holes on the side of the fan
assembly.
3. Secure the mounting brackets to the sides of the fan assembly using the screws removed in
Step 1.
4. Locate the equipment rack mounting space that is specified for the fan assembly.
Page 2-16
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-602
Page 2 of 3
5. Place the fan assembly in the assigned mounting space and align the holes in the mounting
brackets with the holes in the equipment rack.
Note: The loop extender chassis with a fan assembly and plenum panel (or baffle)
requires 15.2 inches of vertical rack space for installation. When installed in a WECO
rack, eight 2.0-inch mounting spaces (16.0 inches of vertical space) are required for
mounting. When installed in an EIA rack, a total of nine 1.75-inch mounting spaces
(15.75 inches of vertical space) are required for mounting. Any gap that remains when
the units are mounted should be below the fan assembly.
6. Secure the mounting brackets to the equipment rack using the screws provided.
7. Using Figure 601-1, perform steps 1 - 6 in DLP-601 to mount the loop extender chassis in
the mounting space directly above the fan assembly.
8. Using the hardware provided, secure the plenum panel or baffle to the equipment rack in
the mounting space directly above the loop extender chassis.
Stop! You have completed this procedure.
Page 2-17
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-602
Page 3 of 3
®
LOOP
EXTE
NDER
PLENUM
PANEL
LOOP
EXTENDER
5380-B
UNIVERSAL
FAN
ASSEMBLY
Figure 602-1. Fan Assembly, Loop Extender Chassis,
and Plenum Panel for 23-Inch Rack
Page 2-18
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-603
Page 1 of 3
CONNECT POWER WIRES
Summary: This procedure provides instructions for determining the size of the power fuses and
power supply wiring and for connecting the power wires to the loop extender chassis backplane.
Two –48 Vdc power sources (A and B) are required to provide redundant power to the loop
extender chassis.
Before making any connections to the loop extender chassis, verify that the power is off (fuse
removed at the fuse and alarm panel) and that all plug-in modules are removed from the
chassis. Do not install plug-in modules until after the chassis wiring is completed.
1. The power requirements for the Soneplex Loop Extender determine the fuse size and
the wire gauge of the power supply wiring. If the fuse and wire sizes are not specified
in the work order, refer to Table 603-2 for the power consumption of the various plug-in
modules. Determine the total power that will be required by the system and then refer to
Table 603-1 for the fuse and wire recommendations. Consider future service needs when
determining the total power required.
2. Loosen two screws holding rear cover in place. Lift cover off the chassis.
3. Route a pair of power supply wires from two separate power sources to the power supply
terminal block at the rear of the chassis. Separately fuse each –48 Vdc power source but do
not install fuses at this time.
4. Label the ends of the two power supply wiring pairs with the following designations:
•
Pair 1: –48A, RTN A
•
Pair 2: –48B, RTN B
5. Insert each power supply wiring pair through the center of a ferrite bead (ferrite beads are
provided separately) as shown in Figure 603-1.
Note: Do not insert the frame ground wire through ferrite beads.
6. Connect the power supply wiring to the power supply terminal block as shown in Figure 603-1.
7. Replace rear cover and secure with the two screws loosened in Step 2.
Stop! You have completed this procedure.
Page 2-19
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-603
Page 2 of 3
PAIR A
PAIR B
FERRITE BEADS IN
PLASTIC CASE
A
B
A
B
4188-A
-48V
RTN
Figure 603-1. Power Supply Terminal Block
Table 603-1. Wire and Fuse Recommendations
TOTAL
WATTS
CURRENT DRAW
–48 VDC
RECOMMENDED WIRE
GAUGE
RECOMMEND
FUSE SIZE
0 to 125 Watts
0 to 2.6 amps
20 AWG
5 amp
126 to 275 Watts
2.6 to 5.8 amps
14 AWG
10 amp
276 to 385 Watts
5.8 to 8 amps
14 AWG
15 amp
386 to 720 Watts
8 to 15 amps
12 AWG
20 amp
721 to 800 Watts
15 to 16.9 amps
10 AWG
25 amps
These recommendations apply to wiring from the loop extender chassis to a fuse panel
located in the same bay using solid conductors.
Page 2-20
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-603
Page 3 of 3
Table 603-2. Loop Extender Chassis Power Consumption
PLUG-IN MODULE
MAXIMUM
POWER
MULTIPLIED BY NUMBER OF
MODULES (ENTER NUMBER)
ENTER TOTAL WATTS
APU
7.5 Watts
× 1 (required)
= 7.5
MPU or SCU
5.0 Watts
× _________ (0-1)
= _________
C1 HLXC (loop
power ON)
25.2 Watts - 60 mA CPE simplex
current active
11.9 Watts - w/o span powering
× _________ (1-28 or 20*)
= _________
E or G HLXC and
two repeaters
25.5 Watts, DS1 simplex disabled
DS1 simplex enabled, not
recommended
19.1 Watts, local powered G1 HLXR
× _________ (1-28 or 20*)
= _________
D, E, or G HLXC
and one repeater
21.5 Watts, DS1 simplex disabled
28.0 Watts, DS1 simplex enabled,
(HLXR D1, D2, D3, E, or G4)
14.0 Watts, local powered D1 or
G1 HLXR
× _________ (1-28 or 20*)
= _________
D, E, or G HLXC
and no repeater
10.5 Watts, DS1 simplex disabled
19.0 Watts, DS1 simplex enabled,
(HLXR D1, D2, D3, E, or G4)
5.5 Watts, local powered D1 or
G1 HLXR
× _________ (1-28 or 20*)
= _________
A H2LXC and no
repeater
21.0 Watts
× _________ (1-28 or 20*)
= _________
B H2LXC and one
repeater
23.5 Watts
× _________ (1-28 or 20*)
= _________
B H2LXC and no
repeater
12.8 Watts
× _________ (1-28 or 20*)
= _________
RLX (Span power
OFF)
2.4 Watts
× _________ (1-28 or 20*)
= _________
RLX (Span power
ON)
12.6 Watts
× _________ (1-28 or 20*)
= _________
B2 RLX/RLXIOR
(Span power OFF)
2.7 Watts
× _________ (1-28 or 20*)
= _________
B2 RLX/RLXIOR
(Span power ON
–130 volts)
13.4 Watts
× _________ (1-28 or 20*)
= _________
B2 RLX/RLXIOR
(Span power ON
±130 volts)
23.4 Watts
× _________ (1-28 or 20*)
= _________
QLX
6 Watts
× _________ (1-14or 10*)
= _________
WQLX
6 Watts
× _________ (1-14or 10*)
= _________
TOTAL POWER CONSUMPTION OF LOOP EXTENDER CHASSIS
= __________
* Maximum count for 23-inch and 19-inch chassis, respectively.
Page 2-21
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-604
Page 1 of 1
CONNECT ALARM WIRES
Summary: This procedure provides instructions for connecting the alarm wires. The following
alarm conditions are indicated: Critical Visual (CR VIS), Critical Audible (CR AUD), Major
Visual (MJ VIS), Major Audible (MJ AUD), Minor Visual (MN VIS), and Minor Audible (MN
AUD). Both normally open (NO) and normally closed (NC) contacts are provided for connection
to local alarm surveillance equipment. Relay contacts are also provided for connecting a remote
(RMT) alarm indicator and an alarm cut-off (ACO) indicator. Wire wrap pins are used for
making all connections.
1. Loosen two screws holding rear cover in place. Lift cover off the chassis.
2. Route the local alarm wires, remote alarm wires, and the alarm cut-off indicator wires to the
ALARM terminal block at the rear of the loop extender chassis as shown in Figure 604-1.
3. Connect the local alarm wires to the appropriate wire wrap pins on the alarm terminal
block. A set of normally open (NO) and normally closed (NC) contacts is provided for each
of the following alarms: Critical Visual (CR VIS), Critical Audible (CR AUD), Major
Visual (MJ VIS), Major Audible (MJ AUD), Minor Visual (MN VIS), and Minor Audible
(MN AUD).
4. Connect the remote alarm wires to the RMT wire wrap pins. Both normally open (NO) and
normally closed (NC) contacts are provided.
5. Connect the alarm cut-off indicator wires to the ACO wire wrap pins. Both normally open
(NO) and normally closed (NC) contacts are provided.
Note: For more information on alarms, refer to the operation and maintenance manual
listed in the beginning of this manual.
6. Replace rear cover and secure with the two screws loosened in Step 1.
Stop! You have completed this procedure.
NC
COM
Figure 604-1. Alarm Terminal Block
Page 2-22
© 2000, ADC Telecommunications, Inc.
O
AC
T
RM
M
N
VI
AU
S
D
M
N
AU
J
M
M
J
VI
S
AU
S
VI
CR
CR
D
NO
D
A
L
A
R
M
4189-B
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-605
Page 1 of 1
CONNECT HOUSEKEEPING AND ACO ALARM WIRES
Summary: This procedure provides instructions for connecting housekeeping alarm wires. Up to
eight housekeeping alarms and an external alarm cut-off switch may be connected. Input for
housekeeping alarms is by dry contact closure (loop) which must be furnished by the equipment
that originates the housekeeping alarm. Input for the alarm cut-off switch is by closure of a
momentary contact switch. Eight pairs of wire wrap pins are provided for making housekeeping
alarm connections. A single set of wire wrap pins is provided for connecting an external alarm
cut-off switch.
1. Loosen two screws holding rear cover in place. Lift cover off the chassis.
2. Route the housekeeping alarm wires to the wire wrap pins labeled HSKP IN at the rear of
the loop extender chassis as shown in Figure 605-1.
3. Connect each pair of housekeeping alarm wires to one of the eight pairs of wire wrap pins
(labeled 1 - 8).
4. Route the alarm cut-off switch wires to the wire wrap pins designated ACO IN at the rear
of the loop extender chassis as shown in Figure 605-1.
5. Connect the pair of alarm cut-off wires to the ACO IN wire wrap pins.
Note: For more information on alarms, refer to the operation and maintenance manual
listed in the beginning of this manual.
6. Replace rear cover and secure with the two screws loosened in Step 1.
Stop! You have completed this procedure.
1
2
3
4
5
HSKP IN
6
7
8
ACO IN
4190-A
Figure 605-1. Housekeeping Alarm and Alarm Cut-Off Switch Terminal Block
Page 2-23
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-606
Page 1 of 1
CONNECT TX AND RX PAIRS TO EIA-422 INTERFACE PORT
Summary: This procedure provides instructions for connecting transmit (Tx) and receive (Rx)
pairs to an EIA-422 interface port. All EIA-422 connections are made through Port 1 at the rear
of the Soneplex Loop Extender chassis. Two pairs of wire wrap pins, Transmit (+ and -) and
Receive (+ and -), are provided at EIA-422 Port 1.
1. Loosen two screws holding rear cover in place. Lift cover off the chassis.
2. Route the EIA-422 transmission cable pairs to Port 1 at the rear of the loop extender chassis
as shown in Figure 606-1. The transmission cable typically specified for an EIA-422
interface is 26 gauge, twisted pair, 100 ohm cable. Shielded cable may be used in high
noise environments. Cable length between the communication equipment and the loop
extender chassis may not exceed 4,000 feet.
3. Connect the transmit pair to the Port 1 wire wrap pins labeled TX+ and TX–.
4. Connect the receive pair to the Port 1 wire wrap pins labeled RX+ and RX–.
5. Repeat Steps 1 through 3 for each Soneplex Loop Extender chassis being installed.
Note: EIA-422 Port 4 on the chassis backplane is provided for daisy chaining two or
more shelves together.
6. Replace rear cover and secure with the two screws loosened in Step 1.
Stop! You have completed this procedure.
USE TOP ROW OF WIRE WRAP
PINS FOR TBOS CONNECTIONS
PORT 1
NOTE: PORT 4 IS RESERVED FOR SHELFTO-SHELF COMMUNICATIONS IN A LATER
RELEASE OF SCU SOFTWARE.
EIA-422
PORT 4
+
RX
+
TX
14590-A
Figure 606-1. Port 1 EIA-422 Connections
Page 2-24
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-607
Page 1 of 2
CONNECT CABLE ASSEMBLY TO EIA-232 INTERFACE PORT
Summary: This procedure provides instructions for connecting to an EIA-232 interface port.
EIA-232 interface connections may be made to Ports 2 and 3 which are located at the rear of the
Soneplex Loop Extender chassis. Ports 2 and 3 are EIA-232 DTE (Data Terminal Equipment)
communications ports.
1. Obtain or prepare an EIA-232 cable assembly equipped with DB-25 male connectors.
Connecting to a DCE device such as a modem requires a straight-through cable.
Connecting to a DTE device such as a terminal requires a null-modem cable.
Note: If preparing a cable assembly, refer to Table 607-1 for the pinouts for the
Operations System (remote facility) when Port 2 or 3 is configured for a TL1 interface
connection. Table 607-2 lists the pinouts for the Operations System (remote facility)
when Port 3 is configured for an X.25 interface connection. See Figure 607-1 for correct
pin locations.
Note: Data Terminal Ready (DTR) is asserted on pin 20 continuously when in operation.
Pin 2 (DTE) does not transmit unless Data Carrier Detect (DCD) on pin 8 is detected. If
DCD pin 8 cannot be detected, the terminal is logged off.
2. Route cable assembly from the interface equipment to the rear of the chassis.
3. Connect cable assembly to Port 2 or 3 as specified in the work order.
Note: All X.25 interface connections are made through Port 3.
Stop! You have completed this procedure.
Table 607-1. Pinouts for TL1 Interface (EIA 232 DTE Ports 2 and 3)
PIN
NAME
SOURCE
CCITT
CIRCUIT
EIA
CIRCUIT
FUNCTION
1
FG
—
101
AA
Frame Ground (Shield)
2
TD
DTE
103
BA
Transmitted Data
3
RD
DCE
104
BB
Received Data
4
RTS
DTE
105
CA
Request to Send
5
CTS
DCE
106
CB
Clear to Send
6
DSR
DCE
107
CC
Data Set Ready
7
SG
—
102
AB
Signal Ground
8
DCD
DCE
109
CF
Data Carrier Detect
20
DTR
DTE
108/2
CD
Data Terminal Ready
Note: Data terminal ready (DTR) is asserted continuously on pin 20 while in operation.
Page 2-25
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-607
Page 2 of 2
Table 607-2. Pinouts for X.25 Interface
*
PIN
NAME
SOURCE
CCITT
CIRCUIT
EIA
CIRCUIT
FUNCTION
1
FG
—
101
AA
Frame Ground (Shield)
2
TD
DTE
103
BA
Transmitted Data
3
RD
DCE
104
BB
Received Data
4
RTS
DTE
105
CA
Request to Send
5
CTS
DCE
106
CB
Clear to Send
6
DSR
DCE
107
CC
Data Set Ready
7
SG
—
102
AB
Signal Ground/Common Return
8
DCD
DCE
109
CF
Data Carrier Detect
15*
TC
DCE
114
DB
Transmitter Clock
17
RC
DCE
115
DD
Receiver Clock
20
DTR
DTE
108/2
CD
Data Terminal Ready
Pin 15 is not connected at the chassis backplane. CCITT Recommendation X.21,
Section 2.2.1, specifies that the DCE shall provide pins 15 and 17 with the same
timing element. Since pins 15 and 17 are identical, the MPU uses the timing
information received on pin 17 for both the receive and transmit element timing.
1
13
25
EIA-232
DTE
14
4192-A
Figure 607-1. Ports 2 and 3 EIA-232 Interface Connection
Page 2-26
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-608
Page 1 of 4
CONNECT DS1 EQUIPMENT CABLES
Summary: This procedure provides instructions for connecting the DS1 equipment cables. The
DS1 cables are installed between the DSX bay and the Soneplex Loop Extender chassis.
Depending on the plug-in modules being installed and the chassis size, up to 28 DS1 circuits in
the 23-inch chassis (20 maximum in the 19-inch chassis) may be terminated at the chassis. Wire
wrap pins are used for making all connections.
1. Remove the loop extender chassis rear cover to expose the EQUIP wire wrap pins.
2. Route the DS1 equipment cables from the DSX bay to the lower left or lower right corner
at the rear of the chassis as shown in Figure 608-1 and Figure 608-2.
Note: Use 22 gauge ABAM cable for the equipment cables. The length of the equipment
cables should not exceed 655 feet.
4. Strip back the cable jacket to expose the wire pairs and metallic sheath as shown in Figure
608-3. Leave drain wire the same length as the cable pairs. Secure cable to the chassis or
rack near the metallic sheath using a tie-wrap or lace.
Note: Ground equipment cable metallic sheath and drain wire only at one end as required
by local practices. This ground connection is normally made at the equipment chassis. The
other end is terminated on a terminal block at the cross-connect but is not grounded.
5. Place a sleeve over the drain wire and route to the shield ground wire wrap pins. Connect
the drain wire to a shield ground wire wrap pin.
6. Locate the EQUIP wire wrap pins that correspond to the mounting slots specified in the
work order. Note that the mounting slots are divided into 7 groups (1 - 7) and that each
group has 4 mounting slots. Table 608-1 lists the mounting slots and wire wrap pins that
should be used when installing each type of plug-in module.
7. Connect the DS1 transmit (output to DSX) wire pairs to the T and R wire wrap pins
provided at each numbered mounting slot as shown in Figure 608-4.
8. Connect the DS1 receive (input from DSX) wire pairs to the T1 and R1 wire wrap pins
provided at each numbered mounting slot as shown in Figure 608-3.
9. Terminate the equipment cable at the DSX bay as required by local practice.
10. Replace the loop extender chassis rear cover when complete.
Stop! You have completed this procedure.
Page 2-27
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-608
Page 2 of 4
EQUIPMENT OR
FACILITY CABLES
EQUIPMENT OR
FACILITY CABLES
POWER SOURCE WIRING
ALARM, HOUSEKEEPING,
AND COMMUNICATION PORT WIRING
RS422
COM
PORT 1
1 2 3 4 5 6 7 8
EQUIP
HKSP IN
M
AU
D
JV
IS
JA
UD
N
V
M IS
N
A
RT UD
M
AC
O
7-3
M
CR
7-4
CR
VIS
NO
SHIELD GND
LINE
FRAME
GND
PORT 4
NC
7-2
7-1
6-4
6-3
+ – + –
RX TX
ACO
IN
M
A
L
A
R
M
FERRITE BLOCKS
6-2
6-1
5-4
5-3
PORT2 RS232
DTE
5-2
5-1
4-4
4-3
4-2
PORT3 RS232
DTE
4-1
3-4
3-3
3-2
A
B
A
–48 V
3-1
2-4
2-3
2-2
B
SHIELD GND
RTN
1-4
2-1
1-3
1-2
1-1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
4198-G
Figure 608-1. Routing Equipment Cables to the 23-Inch Loop Extender Chassis
EQUIPMENT OR
FACILITY CABLES
POWER SOURCE
WIRING
EQUIPMENT OR
FACILITY CABLES
FERRITE
BLOCKS
ALARM, HOUSKEEPING, AND
COMMUNICATION PORT WIRING
A
NC
L
A COM
R NO
M
PORT 1
HSKP IN
CR
CR VIS
M AUD
J
M VIS
J
M AUD
N
M VIS
N
RM AU
D
AC T
O
SHIELD GND
PORT 4
RS422
+–+–
1 2 3 4 5 6 7 8
RX
ACO IN
PORT 2
TX
DTE
RS-232
PORT 3
DTE
RS-232
SHIELD GND
FRAME GND
5-4
L1
LINE
L2
T
R
T1
R1
5-3
L1
L2
T
R
T1
R1
5-2
L1
L2
T
R
T1
R1
5-1
L1
L2
T
R
T1
R1
4-4
L1
L2
T
R
T1
R1
4-3
L1
L2
T
R
T1
R1
4-2
L1
L2
T
R
T1
R1
4-1
L1
L2
T
R
T1
R1
3-4
L1
L2
T
R
T1
R1
3-3
L1
L2
T
R
T1
R1
3-2
L1
L2
T
R
T1
R1
3-1
L1
L2
T
R
T1
R1
2-4
L1
L2
T
R
T1
R1
2-3
L1
L2
T
R
T1
R1
2-2
L1
L2
T
R
T1
R1
2-1
L1
L2
T
R
T1
R1
1-4
L1
L2
T
R
T1
R1
1-3
L1
L2
T
R
T1
R1
1-2
L1
L2
T
R
T1
R1
1-1
L1
L2
T
R
T1
R1
–48V
A
B
A
RTN
EQUIP
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
B
7130-D
Figure 608-2. Routing Equipment Cables to the 19-Inch Loop Extender Chassis
Page 2-28
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-608
Page 3 of 4
DRAIN WIRE
CABLE CLAMP
*OUTER JACKET
*INSULATING INNER
JACKET
1 TO 1.5
INCHES
METALLIC
SHEATH
CABLE PAIRS
APPROXIMATELY 3 FEET
*NOTE: STRIP BACK INNER AND OUTER JACKET
TO EXPOSE THE METALLIC SHEATH
9552-C
Figure 608-3. Cable Preparation (22Ga. ABAM)
T
TRANSMIT TO DSX (OUTPUT)
EQUIP
R
T1
RECEIVE FROM DSX (INPUT)
R1
4195-B
Figure 608-4. Equipment Cable Connections
Page 2-29
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-608
Page 4 of 4
Table 608-1. Mounting Slots and Pin Connections
MODULE TYPE
MOUNTING SLOTS
PIN CONNECTIONS
COMMENT
C1 HLXC,
D1 or later
HLXC, and
H2LXC
Install in ODD and EVEN
numbered slots. Each
module occupies one
mounting slot.
Connect DS1 cables to pins for
ODD and EVEN numbered
mounting slots.
The C1 HLXC
module can not be
used in a 19-inch
chassis.
RLX and
B1 RLX
Install in ODD and EVEN
numbered slots. Each
module occupies one
mounting slot.
Connect DS1 cables to pins for
ODD and EVEN numbered
mounting slots.
N/A
QLX and
WQLX
(Working)
Install only in slot number
1 of each four-slot group.
Each module occupies two
mounting slots.
Connect DS1 cables (four circuits
per module) to pins for ODD and
EVEN numbered slots within each
group of four mounting slots.
N/A
Does not apply.
N/A
QLX and
Install only in slot number
WQLX (Protect) 3 of each four-slot group.
Each module occupies two
mounting slots.
Page 2-30
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-609
Page 1 of 3
CONNECT DS1 FACILITY CABLES
Summary: This procedure provides instructions for connecting the DS1 facility cables. The DS1
facility cables are installed between the MDF and the Soneplex Loop Extender only when an
RLX will be installed in the chassis for T1 transmissions from the chassis to the CPE (as shown
in Figure 609-1). Up to 28 DS1 circuits can be terminated at the 23-inch chassis, up to 20 on the
19-inch chassis. Wire wrap pins are used for making all connections.
To avoid electric shock, be careful when working near HDSL and HDSL2 loop
connections or telecommunications circuits. An electrical potential of ±130 volts exists
on HDSL and Version B HDSL2 loop connections and telecommunications circuits.
Coming in contact with this high electrical potential will result in death or severe
personal injury.
1. Remove the loop extender chassis rear cover to expose the LINE wire wrap pins.
2. Route the DS1 facility cables from the MDF to the lower left or lower right corner at the
rear of the chassis as shown in Figure 609-2 or Figure 609-3.
Note: Use 22 gauge ABAM cable for the facility cables.
3. Locate the LINE wire wrap pins for the mounting slots as shown in Figure 609-2 or Figure
609-3. Note that the mounting slots are divided into seven groups (1 – 7) in Figure 609-2
and five groups (1 – 5) in Figure 609-3, and that each group has four mounting slots.
Note: The RLX plug-in module requires one mounting slot and may be mounted in
either odd or even numbered slots.
4. Strip back the cable jacket to expose the wire pairs and metallic sheath as shown in Figure
609-4. Leave drain wire the same length as the cable pairs. Secure cable to the chassis or
rack near the metallic sheath using a tie-wrap or lace.
Note: Ground equipment cable metallic sheath and drain wire only at one end as
required by local practices. This ground connection is normally made at the equipment
chassis. The other end is terminated but not grounded.
5. Place a sleeve over the drain wire and route to the shield ground wire wrap pins. Connect
the drain wire to a shield ground wire wrap pin.
6. Connect the DS1 transmit (output to MDF) wire pairs to the T and R wire wrap pins
provided at each numbered mounting slot that an RLX will be installed in as shown in
Figure 609-5.
Page 2-31
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-609
Page 2 of 3
7. Connect the DS1 receive (input from MDF) wire pairs to the T1 and R1 wire wrap
pins provided at each numbered mounting slot as shown in Figure 609-5.
8. Terminate the facility cable at the MDF as required by local practice.
9. Replace the loop extender chassis rear cover when complete.
Stop! You have completed this procedure.
T1 FACILITY
TELCO CENTRAL OFFICE
CUSTOMER
PREMISES
SONEPLEX LOOP EXTENDER
LINE
REPEATER
NETWORK
INTERFACE
LINE
REPEATER
CPE
RLX
DS1
SIGNAL
3,000 FT
3,000 FT
6,000 FT
4286-B
Figure 609-1. T1 Carrier Transmission
EQUIPMENT OR
FACILITY CABLES
EQUIPMENT OR
FACILITY CABLES
POWER SOURCE WIRING
ALARM, HOUSEKEEPING,
AND COMMUNICATION PORT WIRING
RS422
COM
HKSP IN
7-3
7-2
7-1
6-4
6-3
+ – + –
RX TX
ACO
IN
CR
7-4
EQUIP
PORT 1
1 2 3 4 5 6 7 8
NO
SHIELD GND
LINE
FRAME
GND
PORT 4
NC
VIS
CR
AU
M D
JV
IS
M
JA
U
M D
N
V
M IS
N
A
RT UD
M
AC
O
A
L
A
R
M
FERRITE BLOCKS
6-2
6-1
5-4
5-3
PORT2 RS232
DTE
5-2
5-1
4-4
4-3
4-2
4-1
PORT3 RS232
DTE
3-4
3-3
3-2
3-1
A
B
–48 V
2-4
2-3
2-2
A
B
SHIELD GND
RTN
1-4
2-1
1-3
1-2
1-1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
4198-G
Figure 609-2. Routing DS1 Facility Cables to the 23-Inch Loop Extender Chassis
Page 2-32
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-609
Page 3 of 3
EQUIPMENT OR
FACILITY CABLES
EQUIPMENT OR
FACILITY CABLES
A
NC
L
A COM
R NO
M
PORT 1
HSKP IN
CR
CR VIS
M AUD
J
M VIS
J
M AUD
N
M VIS
N
RM AU
D
AC T
O
SHIELD GND
PORT 4
RS422
+–+–
1 2 3 4 5 6 7 8
RX
ACO IN
PORT 2
TX
DTE
RS-232
PORT 3
DTE
RS-232
SHIELD GND
FRAME GND
5-4
T
L1
R
LINE
T1
L2
R1
5-3
T
L1
R
T1
L2
R1
5-2
T
L1
R
T1
L2
R1
5-1
T
L1
R
T1
L2
R1
4-4
T
L1
R
T1
L2
R1
4-3
T
L1
R
T1
L2
R1
4-2
T
L1
R
T1
L2
R1
4-1
T
L1
R
T1
L2
R1
3-4
T
L1
R
T1
L2
R1
3-3
T
L1
R
T1
L2
R1
3-2
T
L1
R
T1
L2
R1
3-1
T
L1
R
T1
L2
R1
2-4
T
L1
R
T1
L2
R1
2-3
T
L1
R
T1
L2
R1
2-2
T
L1
R
T1
L2
R1
2-1
T
L1
R
T1
L2
R1
1-4
T
L1
R
T1
L2
R1
1-3
T
L1
R
T1
L2
R1
1-2
T
L1
R
T1
L2
R1
1-1
T
L1
R
T1
L2
R1
–48V
A
B
A
RTN
EQUIP
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
B
7131-D
Figure 609-3. Routing DS1 Facility Cables to the 19-Inch Loop Extender Chassis
DRAIN WIRE
CABLE CLAMP
*OUTER JACKET
*INSULATING INNER
JACKET
1 TO 1.5
INCHES
METALLIC
SHEATH
CABLE PAIRS
APPROXIMATELY 3 FEET
*NOTE: STRIP BACK INNER AND OUTER JACKET
TO EXPOSE THE METALLIC SHEATH
9552-C
Figure 609-4. Cable Preparation (22Ga. ABAM)
T
TRANSMIT TO MDF (OUTPUT)
L1
R
LINE
T1
RECEIVE FROM MDF (INPUT)
L2
R1
5486-E
Figure 609-5. DS1 Facility Cable Connections
Page 2-33
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-610
Page 1 of 3
CONNECT HDSL FACILITY CABLES
Summary: This procedure provides instructions for connecting the HDSL facility cables. The
HDSL facility cables are installed between the MDF and the Soneplex Loop Extender chassis.
Up to 28 HDSL circuits can be terminated at the 23-inch chassis, and up to 20 on the 19-inch
chassis. Wire wrap pins are used for making all connections.
To avoid electric shock, be careful when working near HDSL and HDSL2 loop
connections or telecommunications circuits. An electrical potential of ±130 volts exists
on HDSL and Version B HDSL2 loop connections and telecommunications circuits. In
addition, an electrical potential of ±90 volts exists on Version A HDSL2 loop
connections and telecommunications circuits. Coming in contact with this high electrical
potential will result in death or severe personal injury.
1. Remove the loop extender chassis rear cover to expose the LINE wire wrap pins.
2. Route the HDSL facility cables from the MDF to the lower left or lower right corner at the
rear of the chassis as shown in Figure 610-1 or Figure 610-2.
Note: Use 22 or 24 gauge twisted pair cable for the facility cables. If ABAM cable is
used strip back the cable jacket to expose the wire pairs and metallic sheath. Leave drain
wire the same length as the cable pairs. Secure cable to the chassis or rack near the
metallic sheath using a tie-wrap or lace.
3. Locate the LINE wire wrap pins for the mounting slots as shown in Figure 610-1 or Figure
610-2.
4. Connect the HDSL Loop 1 (L1) wire pairs to the T and R wire-wrap pins.
If HDSL is being connected: Proceed to Step 7 in order to connect Loop 2.
If HDSL2 is being connected: Proceed to Step 6. Loop 2 connections are not used in
normal operation of HDSL2.
5. HDSL only: Connect the Loop 2 (L2) wire pairs to the T1 and R1 wire-wrap pins.
6. Connect the Loop 1 (L1) wire pairs to the T and R wire wrap pins for the odd and even
numbered mounting slots as shown in Figure 610-3.
7. Connect the Loop 2 (L2) wire pairs to the T1 and R1 wire wrap pins for the odd and even
numbered mounting slots as shown in Figure 610-3.
Note: Do not install a HEMI module in any other chassis than the 23-inch Loop Extender
chassis. Each HEMI occupies 3 slots in the chassis. Up to eight HEMIs can be installed in a
23-inch Loop Extender chassis (catalog # SPX-FRM1A2).
Page 2-34
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-610
Page 2 of 3
8. Terminate the facility cable at the MDF as required by local practice.
9. Replace the loop extender chassis rear cover when complete.
Stop! You have completed this procedure.
EQUIPMENT OR
FACILITY CABLES
EQUIPMENT OR
FACILITY CABLES
POWER SOURCE WIRING
ALARM, HOUSEKEEPING,
AND COMMUNICATION PORT WIRING
RS422
COM
PORT 1
1 2 3 4 5 6 7 8
EQUIP
UD
VIS
N
A
RT U D
M
AC
O
7-2
7-1
6-4
6-3
+ – + –
RX TX
ACO
IN
M
JA
VIS
HKSP IN
N
M
CR
7-3
M
CR
7-4
AU
D
JV
IS
NO
SHIELD GND
LINE
FRAME
GND
PORT 4
NC
M
A
L
A
R
M
FERRITE BLOCKS
6-2
6-1
5-4
PORT2 RS232
DTE
5-3
5-2
5-1
4-4
4-3
4-2
4-1
PORT3 RS232
DTE
3-4
3-3
3-2
A
B
A
–48 V
3-1
2-4
2-3
2-2
B
SHIELD GND
RTN
1-4
2-1
1-3
1-2
1-1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
4198-G
Figure 610-1. Routing HDSL Facility Cables to 23-Inch Loop Extender Chassis
EQUIPMENT OR
FACILITY CABLES
POWER SOURCE
WIRING
EQUIPMENT OR
FACILITY CABLES
FERRITE
BLOCKS
ALARM, HOUSKEEPING, AND
COMMUNICATION PORT WIRING
A
NC
L
A COM
R NO
M
PORT 1
HSKP IN
CR
CR VIS
M AUD
J
M VIS
J
M AUD
N
M VIS
N
RM AU
D
AC T
O
SHIELD GND
PORT 4
RS422
+–+–
1 2 3 4 5 6 7 8
RX
ACO IN
PORT 2
TX
DTE
RS-232
PORT 3
DTE
RS-232
SHIELD GND
FRAME GND
5-4
T
L1
R
LINE
T1
L2
R1
5-3
T
L1
R
T1
L2
R1
5-2
T
L1
R
T1
L2
R1
5-1
T
L1
R
T1
L2
R1
4-4
T
L1
R
T1
L2
R1
4-3
T
L1
R
T1
L2
R1
4-2
T
L1
R
T1
L2
R1
4-1
T
L1
R
T1
L2
R1
3-4
T
L1
R
T1
L2
R1
3-3
T
L1
R
T1
L2
R1
3-2
T
L1
R
T1
L2
R1
3-1
T
L1
R
T1
L2
R1
2-4
T
L1
R
T1
L2
R1
2-3
T
L1
R
T1
L2
R1
2-2
T
L1
R
T1
L2
R1
2-1
T
L1
R
T1
L2
R1
1-4
T
L1
R
T1
L2
R1
1-3
T
L1
R
T1
L2
R1
1-2
T
L1
R
T1
L2
R1
1-1
T
L1
R
T1
L2
R1
–48V
A
B
A
RTN
EQUIP
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
B
7130-D
Figure 610-2. Routing HDSL Facility Cables to 19-Inch Loop Extender Chassis
Page 2-35
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-610
Page 3 of 3
T
HDSL LOOP 1
L1
R
HDSL
T1
HDSL LOOP 2
L2
R1
4196-E
Figure 610-3. HDSL Facility Cable Connections
Page 2-36
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-611
Page 1 of 2
ROUTE FIBER OPTIC PATCH CORDS TO LOOP EXTENDER CHASSIS
Summary: This procedure provides instructions for routing fiber optic patch cords to the
Soneplex Loop Extender chassis. Patch cords are required when QLX or WQLX plug-in modules
will be installed in the chassis. Both a transmit and a receive patch cord are required for each
QLX. Only one patch cord is required for the WQLX. This procedure assumes that the excess
patch cord slack will be stored at or near the Soneplex Loop Extender. A suitable storage device
such as a Fiber Storage Panel or Fiber Storage Disk Panel is required for patch cord storage.
Verify that the far end optical transmitter is off before connecting fiber optic patch cords
to outside plant cables at the fiber distribution device. Invisible laser radiation may
cause eye injury if viewed directly. Do not look into the end of a connector if the far end
fiber optic transmitter is active.
1. Select fiber optic patch cords (single mode, 9/125µ) that are long enough to be routed from
the Fiber Distribution Frame (or equivalent distribution device) to the Soneplex Loop
Extender; and are compatible with the QLX or WQLX.
Note: The QLX or WQLX plug-in module may be equipped with either SC or FC
connectors. Check module before selecting patch cords.
2. Tag the ends of each patch cord with the circuit ID and the direction of transmission
(Transmit or Receive).
3. Connect the patch cord pair to the appropriate pair of adapters (as specified in work order)
at the Fiber Distribution Frame.
4. Route the patch cord pair to the equipment rack where the Soneplex Loop Extender is
mounted. Leave the connector dust caps in place on the free ends of the patch cords to
avoid getting dirt on the face of the connectors.
5. Open the loop extender chassis front cover.
6. Locate the mounting slots where each QLX plug-in module will be installed as specified in
the work order.
7. Place the patch cord pair at the top of the specified mounting slot as shown in Figure 611-1.
Leave about five to six inches of slack at each mounting slot (measure from top of chassis
to tip of connector) to permit attachment of the patch cord to the connectors on the QLX
plug-in module.
8. Route patch cord pair through the radius limiters at the top of the baffle.
Page 2-37
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-611
Page 2 of 2
9. From the top of the baffle, route the patch cord pair to either side of the equipment rack. A
protective enclosure such as a 2" by 2" FiberGuide vertical duct may be used to support and
protect the patch cords at the side of the equipment rack.
10. Route patch cord pair through the vertical ducts to the fiber storage device.
11. Gather up the excess patch cord slack at the fiber storage device and store as specified in
the instructions provided with the fiber storage device.
12. Place free ends of patch cords inside chassis and then close chassis front cover.
Stop! You have completed this procedure.
PATCH CORD
PAIR
PATCH CORD
PAIR
HEAT BAFFLE/
FIBER
MANAGEMENT
PANEL
14235-A
FIBERGUIDE
VERTICAL
DUCT
Figure 611-1. Routing Fiber Optic Patch Cords
Page 2-38
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-612
Page 1 of 1
TEST INSTALLED CABLES FOR CONTINUITY
Summary: This procedure provides instructions for testing continuity between installed cable
pairs.
1. Locate the wire terminations at both ends of the cable pair to be tested.
2. Connect an ohmmeter or equivalent test equipment between the tip and ring wires at the
other end of the cable.
3. Verify that a short-circuit does not exist between the cable pairs. If a short is present, repair
or replace as specified by local practice.
4. Connect a jumper wire between the tip and ring wires at one end of the cable pair as shown
in Figure 612-1.
5. Verify that continuity exists between the cable pairs. If continuity does not exist, check for
an incorrect connection or an open wire and repair or replace as specified by local practice.
Stop! You have completed this procedure.
OHMMETER OR EQUIVALENT
CABLE
TERMINATION
POINTS
JUMPER
1945-B
Figure 612-1. Continuity Test
Page 2-39
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-613
Page 1 of 1
CHECK –48 VOLT POWER SUPPLY
Summary: This procedure provides instructions for verifying that –48 Vdc power is present at
the power supply terminal block located at the rear of the loop extender chassis. A multimeter is
required to measure the DC voltage. DC polarity must be observed when taking measurements.
1. Locate the fuse and alarm panel that distributes power to the loop extender chassis.
2. Install appropriate size fuses in both the A and B fuse holders. Refer to DLP-603 if the fuse
sizes are not specified in the work order.
3. Does either fuse blow as soon as it is installed in fuse holder?
If No, proceed to step 4.
If Yes, check for a short circuit or a short to ground at the fuse and alarm panel, in the
power wiring, or at the loop extender chassis power supply terminal block. Isolate
problem using local troubleshooting practices and correct as required.
4. Use the multimeter to measure the DC voltage. When testing, place the positive probe on
the battery return terminal and the negative probe on the –48 Vdc terminal. Measure and
record the battery voltage at the following points:
•
Measure the voltage at the A power feed fuse holder.
•
Measure the voltage at the B power feed fuse holder.
•
Measure the voltage across the –48V A and RTN A terminals on the loop extender
chassis power supply terminal block.
•
Measure the voltage across the –48V B and RTN B terminals on the loop extender
chassis power supply terminal block.
5. The measured voltage must be between –42 Vdc and –56 Vdc at the specified points. Was
voltage within range specified?
If No, proceed to step 6.
If Yes, Stop! You have completed this procedure.
6. The problem is in the fuse and alarm panel, in the power wiring, or in the –48 Vdc power
supply. Isolate problem using local troubleshooting practices and correct as required.
Stop! You have completed this procedure.
Page 2-40
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-614
Page 1 of 2
RJ45 ETHERNET CONNECTION
Summary: This procedure provides instructions for installing an optional RJ45 jack when
making an Ethernet connection to Port four on the back of the Soneplex Loop Extender Chassis.
1. Loosen two rear cover screws and remove rear cover.
2. Remove screw shown in Figure 614-1 from the back of the chassis. On the 19-inch chassis
the screw is located directly below Port 2.
3. Secure RJ45 mounting bracket to the chassis at the location from which the screw was
removed in Step 2, using the #6 screw and washer provided. See Figure 614-2.
4. Snap the RJ45 jack into the mounting bracket. Route the cable from the RJ45 jack to the Port 4.
5. Connect the White/Green wire from the RJ45 jack to the +RX wire wrap pin on Port 4.
6. Connect the Green/White wire from the RJ45 jack to the –RX wire wrap pin on Port 4.
7. Connect the White/Orange wire from the RJ45 jack to the +TX wire wrap pin on Port 4.
8. Connect the Orange/White wire from the RJ45 jack to the –TX wire wrap pin on Port 4.
9. Secure cable to chassis with wire ties provided. Replace rear cover.
10. See Figure 614-3 for RJ45 plug wiring information.
Stop! You have completed this procedure.
REMOVE THIS SCREW
RS422
COM
7-2
HKSP IN
7-1
6-4
6-3
+ – + –
RX TX
ACO
IN
AC
O
VIS
AU
M D
JV
IS
M
JA
U
M D
N
V
M IS
N
A
RT UD
M
CR
7-3
7-4
EQUIP
PORT 1
1 2 3 4 5 6 7 8
NO
SHIELD GND
LINE
FRAME
GND
PORT 4
NC
CR
A
L
A
R
M
6-2
6-1
5-4
5-3
PORT2 RS232
DTE
5-2
5-1
4-4
4-3
4-2
4-1
PORT3 RS232
DTE
3-4
3-3
3-2
3-1
A
B
–48 V
2-4
2-3
2-2
A
B
SHIELD GND
RTN
1-4
2-1
1-3
1-2
1-1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
14233-A
Figure 614-1. Rear View of 23-Inch Chassis
Page 2-41
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 2: Installation
DLP-614
Page 2 of 2
RJ48 MOUNTING BRACKET
RS422
COM
VIS
HKSP IN
AU
M D
JV
IS
M
JA
U
M D
N
V
M IS
N
A
RT UD
M
AC
O
CR
7-3
7-4
EQUIP
PORT 1
1 2 3 4 5 6 7 8
NO
SHIELD GND
LINE
FRAME
GND
PORT 4
NC
7-2
7-1
6-4
6-3
+ – + –
RX TX
ACO
IN
CR
A
L
A
R
M
6-2
6-1
5-4
5-3
PORT2 RS232
DTE
5-2
5-1
4-4
4-3
4-2
PORT3 RS232
DTE
4-1
3-4
3-3
3-2
3-1
A
B
–48 V
2-4
2-3
2-2
A
B
SHIELD GND
RTN
1-4
2-1
1-3
1-2
1-1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
L1 T
R
T1
L2
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
T
R
T1
R1
14234-A
Figure 614-2. 23-Inch Chassis with RJ45 Mounting Bracket Installed
PIN 1
PIN 8
RJ-JACK
11899-A
Figure 614-3. Wiring Diagram for RJ45 Jack
Page 2-42
© 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 3: General Information
SECTION 3: GENERAL INFORMATION
Content
1
Page
1
WARRANTY/SOFTWARE ............................................................... 3-1
2
REPAIR/ADVANCE REPLACEMENT POLICY................................................... 3-1
3
REPAIR CHARGES ................................................................... 3-2
4
REPLACEMENT/SPARE PRODUCTS........................................................ 3-2
5
RETURNED MATERIAL ................................................................ 3-2
6
CUSTOMER INFORMATION AND ASSISTANCE ................................................ 3-3
WARRANTY/SOFTWARE
The Product and Software warranty policy and warranty period for all Products of ADC
Telecommunications, Inc. (hereinafter referred to as ADC) is published in ADC’s Warranty/
Software Handbook. Contact the Broadband Access and Transport Group (BATG) Technical
Assistance Center at 1-800-366-3891, extension 3223 (in U.S.A. or Canada) or 952-946-3223
(outside U.S.A. and Canada) for warranty or software information or for a copy of the
Warranty/Software Handbook.
2
REPAIR/ADVANCE REPLACEMENT POLICY
All repairs of ADC Products must be done by ADC or an authorized representative. Any
attempt to repair or modify ADC Products without prior written authorization from ADC shall
void ADC’s warranty.
If a malfunction cannot be resolved by the normal troubleshooting procedures, call the BATG
Technical Assistance Center at 1-800-366-3891, extension 3223 (in U.S.A. or Canada) or 952946-3223 (outside U.S.A. and Canada). A telephone consultation can sometimes resolve a
problem without the need to repair or replace the ADC Product.
If, during a telephone consultation, ADC determines the ADC Product requires repair, ADC
will authorize the return of the affected Product by the issue of a Return Material
Authorization number and complete return shipping instructions. If service is affected, ADC
can arrange to ship a replacement Product when available from designated inventory. In all
cases, the defective Product must be carefully packaged to eliminate damage, and returned to
ADC in accordance with issued ADC instructions.
Page 3-1
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 3: General Information
3
REPAIR CHARGES
If the defect and the necessary repairs are covered by warranty, Buyer’s only obligation is the
payment of all transportation and associated costs in returning the defective Product to the
location designated by ADC. ADC, at its option, will either repair or replace the Product at no
charge and return the Product to Buyer with transportation costs paid by ADC, only when
ADC contracted carriers are used. Requested return of Product by any other means will be at
Buyer’s cost. Buyer is responsible for all other associated costs in return of Products from
ADC. If Product is Out of Warranty or NTF (no trouble found), ADC will charge a percentage
of the current Product list price. To obtain the percentage factor for Out of Warranty or NTF
Product, contact the ADC Product Return Department at 1-800-366-3891, extension 3000 (in
U.S.A. or Canada) or 952-946-3000 (outside U.S.A. and Canada).
If a service affecting advance replacement Product is requested, the current list price of a new
Product will be charged initially. A customer purchase order is required to ship an advance
replacement Product. Upon receipt of the defective Product, there will be no credit issued by
ADC to the buyer for any returned Product found to be Out of Warranty. ADC will credit buyer
eighty percent (80%) of Product price charged for any In Warranty Product under the Program
terms. Products must be returned within thirty (30) days to be eligible for any advance
replacement credit. If repairs necessitate a field visit by an ADC representative, customer
authorization (purchase order) must be obtained prior to dispatching a representative, ADC will
charge the current price of a field visit plus round trip transportation charges from Minneapolis
to the customer’s site.
4
REPLACEMENT/SPARE PRODUCTS
Replacement parts, including but not limited to button caps and lenses, lamps, fuses, and patch
cords, are available from ADC on a special order basis. Contact the BATG Technical
Assistance Center at 1-800-366-3891, extension 3223 (in U.S.A. or Canada) or 952-946-3223
(outside U.S.A. and Canada) for additional information.
Spare Products and accessories can be purchased from ADC. Contact Sales Administration at 1800-366-3891, extension 3000 (in U.S.A. or Canada) or 952-946-3000 (outside U.S.A. and
Canada) for a price quote and to place your order.
5
RETURNED MATERIAL
Contact the ADC Product Return Department at 1-800-366-3891, extension 3000 (in U.S.A.
or Canada) or 952-946-3000 (outside U.S.A. and Canada) to obtain a Return Material
Authorization number prior to returning an ADC Product.
All returned Products must have a Return Material Authorization (RMA) number clearly
marked on the outside of the package. The Return Material Authorization number is valid for
thirty (30) days from authorization.
Page 3-2
 2000, ADC Telecommunications, Inc.
ADCP-61-308 • Issue 6 • May 2000 • Section 3: General Information
6
CUSTOMER INFORMATION AND ASSISTANCE
For customers wanting information on ADC products or help in using them, ADC offers the
services listed below. To obtain any of these services by telephone, first dial the central ADC
telephone number, then dial the extension provided below.
The central number for calls originating in the U.S.A. or Canada is 1-800-366-3891. For calls
originating outside the U.S.A. or Canada, dial country code “1” then dial 952-946-3000.
Sales Assistance
Extension 3000
• Quotation Proposals
• Ordering and Delivery
• General Product Information
Systems Integration
Extension 3000
•
•
•
•
•
•
•
Complete Solutions (from Concept to Installation)
Network Design and Integration Testing
System Turn-Up and Testing
Network Monitoring (Upstream or Downstream)
Power Monitoring and Remote Surveillance
Service/Maintenance Agreements
Systems Operation
BATG Technical Assistance
Center
Extension 3223
E-Mail: technical@adc.com
•
•
•
•
•
•
Technical Information
System/Network Configuration
Product Specification and Application
Training (Product-Specific)
Installation and Operation Assistance
Troubleshooting and Repair/Field Assistance
Product Return Department
Extension 3748
E-Mail: repair&return@adc.com
• ADC Return Authorization number and instructions must
be obtained before returning products.
Product information may also be obtained using the ADC web site at www.adc.com or by
writing ADC Telecommunications, Inc., P.O. Box 1101, Minneapolis, MN 55440-1101, U.S.A.
Contents herein are current as of the date of publication. ADC reserves the right to change the contents without prior notice. In
no event shall ADC be liable for any damages resulting from loss of data, loss of use, or loss of profits and ADC further
disclaims any and all liability for indirect, incidental, special, consequential or other similar damages. This disclaimer of
liability applies to all products, publications and services during and after the warranty period.
This publication may be verified at any time by contacting ADC’s Technical Assistance Center at 1-800-366-3891, extension
3223 (in U.S.A. or Canada) or 952-946-3223 (outside U.S.A. and Canada), or by writing to ADC Telecommunications, Inc.,
Attn: Technical Assistance Center, Mail Station #77, P.O. Box 1101, Minneapolis, MN 55440-1101, U.S.A.
© 2000, ADC Telecommunications, Inc.
All Rights Reserved
Printed in U.S.A.
Page 3-3
www.adc.com