Example Transport Engineering Guide (TEG): Alcatel ... Example Transport Engineering Guide (TEG): Alcatel Litespan-2000 and -2012. Central Office applications. Section Table of Contents

BOTC-TEG-1200

Example Transport Engineering Guide (TEG): Alcatel Litespan-2000 and -2012. Central Office applications.

Section Table of Contents Page

DS Data Sheet (weight, footprint, power, heat, timing, alarms/rm, DF blocks, CLEI) 2

1 Overview 3

2 Equipment requirements 4-5

3 Relay rack and system layouts 6-7

4 Mechanized Loop Test, Pair Gain Test Controller and Metallic Test Pair routines 8

5 System connection details (except VF/DS0) 9-14

6 System VF/DS0 connection and DF block layout/pair count/wiring color code

B) Tracer Lamp (TL) colors: TLs are used to identify near and far end cross

connect points in the DSX-3 environment. DSX-XA-BB-24R Cross Aisle and DSX4H

series DSX-3 panels (see section 4) have one TL LED for each position (24 per

panel). DSX4R series DSX-3 panels have two TL LEDs (front and back of panel) for

each position (32 per panel). The DSX-3 color standard is red for DS3 and yellow for

STS-1.

2

BOTC-TEG-2300

All ADC panels with TL capability are shipped with -48V red LEDs. If the panel

position usage is DS3 or unknown, the red LEDs should be left in place. If the panel

position usage is STS-1, the red LEDs should be replaced with yellow LEDs. These

ADC part numbers can be used to order -48V yellow LEDs (see section 11 for -24V

condition):

FLEDY: 1 yellow LED for DSX4H DSX-3 or DSX-XA-BB-24R Cross Aisle panel.

STS-KIT-Y: Kit of 24 yellow LEDs for DSX4H DSX-3 or DSX-XA-BB-24R Cross Aisle

panel.

FLED-A-YEL: 1 yellow LED for DSX4R DSX-3 panel.

FLED-A-KIT-YEL: Kit of 100 yellow LEDs for DSX4R DSX-3 panel.

In some cases, panels with yellow LEDs may need to be converted back to red (STS-1

termination changed to DS3). These ADC part numbers can be used to order -48V

red LEDs (see section 11 for -24V condition):

FLEDR: 1 red LED for DSX4H DSX-3 or DSX-XA-BB-24R Cross Aisle panel.

FLED-A-RED: 1 red LED for DSX4R DSX-3 panel.

14-20

Issue Revisions Date

1 Original release of Bill Oakes Engineering Guideline for Alcatel Litespan. September 30, 1994

19 Revise into Word format. August 16, 2007

Acronyms: American Wire Gauge (AWG), Battery Distribution Fuse Board (BDFB), Central Office (CO), Channel

Bank (CB), Common Control (CC), Competitive Local Exchange Carrier (CLEC), Digital Cross connect System-

electronic (DCS), Digital Loop Carrier (DLC), Digital System Cross connect-manual (DSX), Distributing Frame (DF),

Enclosed Network Extension-RT/CEV/Hut/Prem (ENE), Fiber Distribution Frame (FDF), Network Element (NE),

Receive (RX), Support Engineering Guide (SEG), Transaction Language 1 (TL1), Transmit (TX), Universal Fuse and

Alarm Panel (UFAP), Universal Fuse and Power Panel (UFPP), Voice Frequency (VF).

Bill Oakes Telecom Consultants (BOTC)

[email protected], 831-476-0453

Copyright 1994. All rights reserved.

1

BOTC-TEG-1200

Data Sheet:

The preface section of all BOTC-TEGs is a data sheet that provides quick view information for weight, relay rack

footprint, peak (LIST 2)/nominal (LIST 1) power amperage, heat dissipation wattage, timing, alarms/remote

management, DF block and CLEI code requirements. The data shown is an ultimate condition (relay rack fully

loaded with equipment as designed in associated BOTC-TEG). Even though many relay rack deployments are

partially equipped, BOTC recommends basing initial space/engineering planning on ultimate data since existing

rack layouts typically grow to conclusion without follow-up involvement by planning personnel.

Category Requirement

Weight370 pounds per

rack

Timing (BITS)2 BITS CC per

system

Alarms None

Remote

management

1 Ethernet or

RS232 TL1 per

system

DF blocks7 or 21 per

system

SLMMA903

SBMFAA0A

Peak/LIST 2

amperage at

42.6V

See remarks

15.6 amps for -2000 Primary rack. 16.7 amps for -2012 Primary rack.

12.8 amps for 4 channel bank Expansion rack.

Data sheet for CO Alcatel Litespan DLC relay rack

Footprint

Remarks

Total for Alcatel factory assembled Litespan rack (relay rack, power

panel, baffles and fully loaded banks).

31" wide x 12"

deep per rack

31" wide (26" rack plus 2.5" spacers on both sides) with 5" deep front and

2" deep rear guard boxes. GR-303 system is 1 rack. TR-57 system is 2 or 3

adjacent racks.

Nominal/LIST 1

amperage at

52V

See remarks8.4 amps for -2000 Primary rack. 8.9 amps for -2012 Primary rack.

7.6 amps for 4 channel bank Expansion rack.

Heat

dissipationSee remarks

CLEI codes (see

BOTC-SEG-0600

section 4)

Litespan-2000.

Litespan-2012.

393 watts for -2000 Primary rack. 417 watts for -2012 Primary rack.

356 watts for 4 channel bank Expansion rack.

Primary rack requires one set of primary and secondary BITS Composite

Clock (CC) outputs. No BITS connection for Expansion racks.

Alarms for all power panels (Primary rack and any Expansion racks)

integrated into Primary rack TL1 remote management.

Each Channel Bank (CB) has 225 DF pairs (224 active, 1 dead). GR-303

systems (Primary rack with 3 CB) have 675 pairs and require seven 100

pair DF blocks. TR-57 systems (Primary rack with 3 CB plus 6 more CB in

Expansion racks) have 2025 pairs and require twenty-one 100 pair DF

blocks). See BOTC-SEG-0300 section 2 or 8. If the DF is Conventional,

blocks mount on vertical side.

Primary rack only. No remote management connection for Expansion

racks. Ethernet is first choice method. RS232 is alternate second choice.

2

BOTC-TEG-1200

1. Overview:

This TEG supports CO applications only. Alcatel Litespan is a Digital Loop Carrier (DLC) system designed to

transport signals between CO and ENE locations using OC3 or OC12 spans. Litespan-2000 systems use OC3 fiber

transport and have an ultimate DROP side capacity of 2025 VF/DS0 pairs (2016 active, 9 dead), 84 DS1 circuits or

any combination up to the OC3 rate. If the span is dual OC3 multi-point (one CO Litespan with two sets of OC3 fiber

serving two ENE Litespans at separate locations), 168 DS1s can be cabled but the VF/DS0 pairs are still limited to

2025. ENE Litespans collect regular and ADSL customer circuits but group them into separate OC3 fiber sets for

transport to the CO. Regular OC3 fiber from the ENE connects to a CO Litespan for distribution of DS1 and VF/DS0

circuits. ADSL OC3 fiber from the ENE enters the CO vault and then runs to an FDF panel for cross connect to a DSL

Aggregator (Ciena for example) that separates the ADSL circuits on a per Service Provider/Telco/CLEC basis.

Litespan-2012 systems use OC12 fiber transport (four OC3 channels). One OC3 channel is associated with the

2012 system itself and has the same function/capacity limits as 2000 system regular OC3 (2025 VF/DS0, 84 DS1 or

any combination up to OC3 rate). Each of the other three OC3 channels can be used to transport regular OC3 (from

separate 2000 systems at the same ENE), ADSL OC3 (for 2012 system itself or separate 2000 system at same ENE)

or three DS3 circuits from external equipment (mux in same ENE or adjacent Cell site for example).

DLCs can be Telcordia TR-57 Universal (ENE VF/DS0 lines interface with CO switch via DF terminated derived

pairs), GR-303 Integrated (ENE lines interface with CO switch via DSX-1/DCS terminated DS1 circuits) or Mixed

(mixture of Universal and Integrated). To provide flexibility for cross connecting ENE special service circuits to the

CO switch, all GR-303 designated Litespan systems are “Mixed” (have derived pairs cabled to DF).

Each CO Litespan system has a Common Control (CC) shelf for administrative functions and fiber connections to

one (single point-to-point span) or two (dual multi-point span) ENE Litespans. Channel Bank (CB) shelves are

used for DS1 (56 circuits) and/or VF/DS0 (224 active pairs, 1 dead pair) connections. Primary racks are factory

assembled with one CC and three CB shelves. Expansion racks are factory assembled with four CB shelves or two

CB shelves (two more CB can be field mounted on a follow-up job per section 2 part G).

GR-303 systems consist of one Primary rack (section 3 figure 3A or 3B). TR-57 systems consist of one Primary

rack plus two (figure 3E) or six (figure 3F) CBs mounted in adjacent Expansion racks (figure 3C or 3D). If TR-57

Expansion racks are anticipated but not added on the initial job, floor space must be reserved adjacent to the

Primary rack (left or right side) due to the control cable length limit (180 inches maximum) between CC and CB

shelves.

CB shelves come equipped with connectorized pigtails to mate with external DS1 (also known as Wideband or WB)

and VF/DS0 (also known as Narrowband or NB) cables. Each CB shelf has six 25 pair WB pigtail connectors (TX

and RX pairs 1-20, 21-40, 41-56) and nine 25 pair NB pigtail connectors (total of 224 active, 1 dead). Since future

service needs are typically undetermined at the time of initial installation, most Service Providers/Telcos require

full or partial dual cabling for Primary rack CB1 and CB2 (WB to DSX-1 and NB to DF even though both cannot be

used at same time for a given card position on shelf). WB pigtails on Expansion rack CBs usually serve no purpose

(equipped on all CBs for ordering simplicity only).

3

BOTC-TEG-1200

2. Equipment requirements:

This section provides part number and mounting/usage details for equipment in Alcatel Litespan relay racks.

Layouts are shown in figure 3A to 3F. The racks are factory assembled (see BOTC-SEG-0600 section 9).

A) Factory assembled Litespan-2000 Primary rack: See part E for rear guard box. Alcatel part number

798.1013.010 provides:

1 Telect 12300KW201F Unequal Flange rack (7’, 2 x 23 drilling, 5” front welded guard box).

1 Alcatel 500.1105.700 UFAP.

1 Alcatel 500.1100.500 CC shelf.

1 Alcatel 500.1113.205 CB shelf (internally wired with first VF/DS0 pair dead).

2 Alcatel 500.1113.201 CB shelves (internally wired with last VF/DS0 pair dead).

3 Alcatel 500.1100.300 Heat baffles.

1 Set of intra-rack wiring (CC/CB shelf power/chassis ground, CB shelf control cables to CC shelf).

B) Factory assembled Litespan-2012 Primary rack: See part E for rear guard box. Alcatel part number

798.1014.020 provides:


1 Alcatel 500.1126.830 Fan tray.

1 Alcatel 500.1127.170 CC shelf (includes UFAP).




1 Set of intra-rack wiring (CC/CB shelf power/chassis ground, CB shelf control cables to CC shelf).

C) Factory assembled Litespan-2000 or -2012 four CB Expansion rack: See part E for rear guard box and part

F for control cables. Alcatel part number 798.1011.642 provides:


1 Alcatel 500.1113.700 UFPP.

2 Alcatel 500.1113.205 CB shelves (internally wired with first VF/DS0 pair dead).



1 Set of intra-rack wiring (CB shelf power/chassis ground).

D) Factory assembled Litespan-2000 or -2012 two CB Expansion rack: See part E for rear guard box and part

F for control cables. Alcatel part number 798.1013.507 provides:


1 Alcatel 500.1113.700 UFPP.


1 Alcatel 500.1113.201 CB shelf (internally wired with last VF/DS0 pair dead).

1 Alcatel 500.1100.300 Heat baffle.

1 Set of intra-rack wiring (CB shelf power/chassis ground).

E) Rear guard box for Primary or Expansion rack: One 2” rear field mount guard box must be ordered as a

separate item so that the footprint depth is 12” (5” front, 2” rear). See BOTC-SEG-0600.

4

BOTC-TEG-1200

F) Control cables between factory assembled Expansion rack CB shelves and Primary rack CC shelf: Two

Alcatel control cables must be ordered for each Expansion rack CB shelf. The last three digits of part number

indicates cable length in inches. See section 5 part E for connection details and section 3 figure 3E, 3F for layouts.

If 798.1011.642 Expansion rack is used as:

-2000 system CB4-7 or CB4-5/4-5, provide two each 453.1113.120, 453.1113.140, 453.1113.160, 453.1113.180.

-2000 system CB8-9/8-9, provide eight 453.1113.180.

-2012 system CB4-7 or CB4-5/4-5, provide two each 453.1125.120, 453.1125.140, 453.1125.160, 453.1125.180.

-2012 system CB8-9/8-9, provide eight 453.1125.180.

If 798.1013.507 Expansion rack is used as:

-2000 system CB8-9, provide four 453.1113.180.

-2000 system CB4-5, provide two each 453.1113.120, 453.1113.140.

-2012 system CB8-9, provide four 453.1125.180.

-2012 system CB4-5, provide eight 453.1125.120, 453.1125.140.

G) Field mounted CB shelves: As shown in figure 3E and 3F, middle Expansion racks are shared by two systems.

When both systems are added on the same job, a four CB 798.1011.642 middle rack is used. If the second system is

not added on the initial job, a 798.1013.507 middle rack is used. When the second system is added, lower CB shelf

material must be provided and field mounted in the existing middle rack as follows:


1 Alcatel 500.1113.201 CB shelf (internally wired with last VF/DS0 pair dead).

2 Alcatel 500.1100.300 Heat baffles. When mounting these baffles, installation should verify continuity

between the baffle ESD jack and rack ground. This may require removal of paint on the rack upright.

4 Alcatel control cables (453.1113.180 if -2000 system or 453.1125.180 if -2012 system). See section 5 part E.

4 10 amp GMT fuses (see BOTC-SEG-0500 section 14) for CB shelf output positions on Expansion rack UFPP.

Each CB is factory equipped with five 12 AWG pigtail leads that should be connected by installation as follows:

Return lead (Black): To available TB3 ground stud position on UFPP. Termination material (1 hole No.10 lug,

10-32 nut and lock washer) provided in white bag attached to CB.

Batt-A lead (Red): To available TB1 position on UFPP.

Batt-B lead (Orange): To available TB2 position on UFPP.

Transient Protection lead (White) and Logic Ground lead (Blue): To relay rack ground. Ring terminals factory

mounted on end of leads. Screws and star washers provided in white bag attached to CB.

5

BOTC-TEG-1200

3. Relay rack and system layouts:

GQ or 38 GQ or 38 GP or 37 GP or 37

GN or 36 GN or 36

GM or 35 GM or 35

GL or 34 GL or 34

GK or 33 GK or 33

GJ or 32 GJ or 32

GH or 31 GH or 31

GG or 30 GG or 30

GF or 29 GF or 29

GE or 28 GE or 28

GD or 27 GD or 27 500.1125.830 Fan TrayGC or 26 500.1100.300 Heat baffle GC or 26 500.1100.300 Heat baffleGB or 25 GB or 25

GA or 24 GA or 24

EV or 23 EV or 23

EU or 22 EU or 22

ET or 21 ET or 21

ES or 20 ES or 20

ER or 19 ER or 19

EQ or 18 EQ or 18

EP or 17 500.1100.300 Heat baffle EP or 17 500.1100.300 Heat baffleEN or 16 EN or 16

EM or 15 EM or 15

EL or 14 EL or 14

EK or 13 EK or 13

EJ or 12 EJ or 12

EH or 11 EH or 11

EG or 10 EG or 10

EF or 9 500.1100.300 Heat baffle EF or 9 500.1100.300 Heat baffleEE or 8 EE or 8

ED or 7 ED or 7

EC or 6 EC or 6

EB or 5 EB or 5

EA or 4 EA or 4

FA or 3 FA or 3

FB or 2 FB or 2

FC or 1 FC or 1

2 x 23 2 x 23

FIGURE 3A FIGURE 3BLayout for Alcatel 798.1013.010

factory assembled Litespan-2000

Primary rack. Use 2.5" spacers on

both sides for cable management.

500.1100.500

Common Control shelf

500.1113.201

Channel Bank 3

500.1105.700 Universal

Fuse and Alarm Panel

500.1113.205

Channel Bank 2

500.1113.201

Channel Bank 1

500.1127.170

Common Control shelf

(includes Fuse and Alarm

Panel)

500.1113.201

Channel Bank 1

500.1113.205

Channel Bank 2

500.1113.201

Channel Bank 3

Layout for Alcatel 798.1014.020

factory assembled Litespan-2012

Primary rack. Use 2.5" spacers on

both sides for cable management.

6

BOTC-TEG-1200

GQ or 38 GQ or 38 GP or 37 GP or 37

GN or 36 GN or 36

GM or 35 GM or 35

GL or 34 GL or 34

GK or 33 GK or 33

GJ or 32 GJ or 32

GH or 31 GH or 31

GG or 30 GG or 30

GF or 29 GF or 29

GE or 28 GE or 28

GD or 27 GD or 27

GC or 26 500.1100.300 Heat baffle GC or 26 500.1100.300 Heat baffleGB or 25 GB or 25

GA or 24 GA or 24

EV or 23 EV or 23

EU or 22 EU or 22

ET or 21 ET or 21

ES or 20 ES or 20

ER or 19 ER or 19

EQ or 18 EQ or 18

EP or 17 500.1100.300 Heat baffle EP or 17 EN or 16 EN or 16

EM or 15 EM or 15

EL or 14 EL or 14

EK or 13 EK or 13

EJ or 12 EJ or 12

EH or 11 EH or 11

EG or 10 EG or 10

EF or 9 500.1100.300 Heat baffle EF or 9 EE or 8 EE or 8

ED or 7 ED or 7

EC or 6 EC or 6

EB or 5 EB or 5

EA or 4 EA or 4

FA or 3 FA or 3

FB or 2 FB or 2

FC or 1 FC or 1

2 x 23 2 x 23

FIGURE 3C FIGURE 3DLayout for Alcatel 798.1011.642

factory assembled Litespan-2000 or -

2012 four channel bank Expansion

rack. Use 2.5" spacers on both sides

for cable management.

Layout for Alcatel 798.1013.507

factory assembled Litespan-2000 or -

2012 two channel bank Expansion

rack. See section 2G. Use 2.5"

spacers on both sides for cable

management.

500.1113.205

Channel Bank (EVEN)

500.1113.201

Channel Bank (ODD)


Fuse and Power Panel

500.1113.205

Channel Bank (EVEN)

500.1113.201

Channel Bank (ODD)

500.1113.201

Channel Bank (ODD)


Fuse and Power Panel

500.1113.205

Channel Bank (EVEN)

CC <-- CB4 CC CC CB4 <-- CB8 CB4 CC

CB1 <-- CB5 CB1 CB1 CB5 <-- CB9 CB5 CB1

CB2 CB4 --> CB2 CB2 CB6 CB8 --> CB6 CB2

CB3 CB5 --> CB3 CB3 CB7 CB9 --> CB7 CB3

7

FIGURE 3FFront view of 5 rack, 2 system Litespan-2000 or -2012 layout

using dedicated (CB4-7) and shared (CB8-9, CB8-9) figure 3C

Expansion racks. Shared rack may be initially per figure 3D

with lower CB8-9 added on subsequent job per section 2G.

FIGURE 3EFront view of 3 rack, 2 system

Litespan-2000 or -2012 layout using

shared figure 3C Expansion rack.

Shared rack may be initially per

figure 3D with lower CB3-4 added

on subsequent job per section 2G.

BOTC-TEG-1200

4. Mechanized Loop Test, Pair Gain Test Controller and Metallic Test Pair routines:

A) Background: When customers report service problems, their line needs to be tested. In the late 1970s, the Bell

System started to deploy SD2P017-01 Loop Test Frame (LTF) remote testing equipment (also known as MLT-1).

In 1981, next generation SD2P076-01 Loop Test Systems (LTS) were introduced (also known as MLT-2). In 2001,

Tollgrade purchased the Lucent LTF/LTS product lines. Tollgrade also developed their own Digital Measurement

Node (DMN) version of this equipment for new testheads or replacement of old MLT-1 systems. Around 1980

most Service Providers/Telcos began to use CO-ENE Pair Gain (PG) systems (Lucent SLC-96 for example) for

transporting customer lines on multiplexed copper pairs. Since ENE lines connect to the CO switch via derived

(instead of direct local loop) pairs, SD97760-01 Pair Gain Test Controller (PGTC) shelves were added to act as the

PG-MLT interface (CO switch Number Test Trunks (NTT) could not be used). An industry standard 25 pair mult

runs from the PGTC to any CO PG systems (Lucent SLC, Nortel DMS-1, Alcatel Litespan, etc) that require this ENE

test line method. Copper based PG systems transport the test circuit on separate CO-ENE Metallic Test Pairs

(MTP). Fiber based PG systems usually insert the test circuit into their fiber overhead for CO-ENE transport.

B) Alcatel Litespan methods: If the system is TR-57, PGTC and MTP circuits (section 5 part K and L) are cabled

and two Tollgrade MCU-D405 cards are placed in CB1 channel slots. A DF cross connect is made between Litespan

MTPs and VF/DS0 pairs associated with the CB1 D405 slots. This inserts MTP circuits onto the Litespan CO-ENE

overhead. If the system is GR-303 Mixed, cabling is identical to TR-57 methods but the DF cross connect is now

three way (Litespan MTPs, Litespan VF/DS0 associated with D405 slots and CO switch NTTs). This allows testing

from the CO switch (for pure GR-303 Integrated circuits) or PGTC (for GR-303 derived pairs) to be inserted onto

the Litespan CO-ENE overhead. In the rare case of a pure GR-303 system (no derived pairs), Litespan PGTC and

MTP circuits are not cabled. Two Tollgrade MCU-4496ER cards are placed in a CO D4 Bank (channel slots already

wired to DF, can be cross connected to CO switch NTTs). The D4 DS1 circuit is DSX-1 cross connected to a Litespan

DS1 which allows CO switch testing to be inserted onto the Litespan CO-ENE overhead.

C) PGTC mult limit: Since PGTC shelves have only one connector (T97760-30 figure 3) for CO PG systems, a mult

cabling method is required. Some COs have a haphazard PG growth pattern that has SLCs on one floor, DMS1s on

another floor and Litespan back on the SLC floor. This can cause a zigzag cable pattern that results in abnormally

long PGTC mult circuits. Theoretically this should not be a problem since PGTCs have a cable capacitance limit of

.04 Microfarads which allows 1800 to 2000 feet of mult cabling (capacitance of 25 pair 24 AWG unshielded cables

is about .000022 to .000020 Microfarads per foot). In actual practice, field reports indicate that the mult limit is

significantly less than 1800 feet. When requested by Service Provider/Telco personnel, engineering vendors

should investigate the existing PGTC mult route (review floor plans, office records, etc) and recable existing PG

systems so the total mult length is reduced. This may involve the use of short CSI CA4XXXX130T001 or Cablcon

T1523-0342-XXX Bridge cables for T connections (see BOTC-SEG-0100 section 7 for manufacturer contacts).

8

BOTC-TEG-1200 5. System connection details (see section 6 for VF/DS0):

A) Power for -2000 Primary rack UFAP:

Step 1 (Dual load redundant input feeders from BDFB): See BOTC-SEG-0500 section 11 for BDFB fuse/feeder

sizing responsibility and BOTC-SEG-0700 section 9 for wire material. Provide 4 two hole lugs (No.10 studs on

.625” centers) for input feeder connections (wire size determined by vendor based on job conditions). LIST 2 is

15.6 amps at 42.6V (see BOTC-SEG-0500 section 2 for calculation). UFAP has internal 25 amp circuit breakers.

B) Power for -2012 Primary rack CC shelf (UFAP component):




16.7 amps at 42.6V (see BOTC-SEG-0500 section 2 for calculation). CC shelf has internal 40 amp circuit breakers.

C) Power for Expansion rack UFPP:




12.8 amps at 42.6V (see BOTC-SEG-0500 section 2 for calculation). LIST 2 based fully equipped Expansion rack

(four CB) but also applies on two CB Expansion racks (eliminates reengineering of BDFB power feeders when

lower CBs are added on future second system job). UFPP has internal 25 amp circuit breakers.

D) Alarms for Expansion rack UFPP:

Step 1 (Intra-system alarm connection): UFPP is factory wired at UFPP end with three pair cable harness that

must be connected to the Primary rack UFAP (-2000 system) or CC shelf (-2012 system) TB12 alarm wire wrap

pins (the two choices shown below are for 1st and 2nd Expansion rack). This integrates UFPP alarms into the

Primary rack TL1 remote management signal (Primary rack UFAP alarms are internally integrated). Installation

should connect Expansion rack UFPP alarm leads as follows:

Black-1 lead from UFPP J4 pin E2 to TB12 J2 pin B5 or B6.

Green lead from UFPP J4 pin E3 to TB12 J1 pin A5 or A6.

Red lead from UFPP A Circuit Breaker COM pin to TB12 J2 pin B2 or B3.

Black-2 lead from UFPP A Circuit Breaker NC pin to TB12 J1 pin A2 or A3.

White lead from UFPP B Circuit Breaker COM pin to TB12 J4 pin D2 or D3.

Black-3 lead from UFPP B Circuit Breaker NC pin to TB12 J3 pin C2 or C3.

E) Control cables for Expansion rack CB shelf:

Step 1 (connect control cables): For each Expansion rack CB shelf, connect two control cables (provided per

section 2 part F or G) to the Primary rack CC shelf as follows: CB4 (CB J301 to CC J401, CB J302 to CC J402), CB5

(CB J301 to CC J501, CB J302 to CC J502), CB6 (CB J301 to CC J601, CB J302 to CC J602), CB7 (CB J301 to CC J701, CB

J302 to CC J702), CB8 (CB J301 to CC J801, CB J302 to CC J802), CB9 (CB J301 to CC J901, CB J302 to CC J902).

F) Timing for -2000 Primary rack:

Step 1 (run timing cables): See BOTC-SEG-0100 section 9 for methods. Run two single pair timing cables from

CC shelf to CO BITS distribution equipment Composite Clock outputs. Connect primary pair to shelf J49 pin +2 (LX

lead), J49 pin -6 (LY lead) and secondary pair to shelf J48 pin +2 (LX lead), J48 pin -6 (LY lead). Do not ground

cables at CC shelf end (no capacitive ground feature).

9

BOTC-TEG-1200 G) Timing for -2012 Primary rack:

Step 1 (run timing cables): See BOTC-SEG-0100 section 9 for methods. Run two single pair timing cables from

CC shelf to CO BITS distribution equipment Composite Clock outputs. Connect primary pair to shelf TB14 pin A9

(LX lead), pin B9 (LY lead) and secondary pair to shelf TB14 pin A12 (LX lead), pin B12 (LY lead). No connection

required for TB14 pin A13-A16, B13-B16 (Bridged CC) or A1-A8, B1-B8 (DS1 Input/Output).

Step 2 (ground timing cables at Litespan end): Ground primary cable at TB14 pin A10 and secondary cable at

TB14 pin A11 (CC shelf has capacitive ground feature).

Step 3 (set timing jumpers): Installation should ensure that the TB16 CC1 and CC2 timing jumpers are set in the

“TERM” position.

H) Ethernet TL1 remote management for -2000 or -2012 Primary rack:

This is the first choice method for remote management (see part J for second choice RS232 method if Ethernet hub

equipment not available in CO).

Step 1 (attach conversion cable): Each Primary rack includes one Alcatel 456.0000.800 conversion cable (50 pin

female to RJ45 female) provided as part of a Litespan Getting Started Package (ordered by Service Provider/Telco

personnel). Attach 50 pin end of cable to factory wired P11 pigtail stub on rear side of CB1. This establishes an

Ethernet 10BASE-T circuit on the stub cable RJ45 connector (pin 1 is TX+, pin 2 TX-, pin 3 RX+, pin 6 RX-).

Step 2 (external remote management cable): Run electrical Ethernet cable with straight pinning (see BOTC-

SEG-0100 section 10) from Primary rack CB1 shelf rear side conversion cable RJ45 connector to CO Remote

management Ethernet hub equipment port.

J) RS232 TL1 remote management for -2000 or -2012 Primary rack:

This is an alternate second choice method for remote management (see part H for first choice Ethernet method).

Step 1 (provide and attach conversion cable): Provide one Alcatel 450.1100.800 conversion Y cable (two 50 pin

female to 25 pin RS232 male). Attach dual 50 pin end of cable to factory wired P11 and P12 pigtail stubs on rear

side of CB1. This establishes an RS232 DTE circuit on the stub cable 25 pin connector (pin 1 is SHIELD GND, pin 2

TXD, pin 3 RXD, pin 4 RTS, pin 5 CTS, pin 6 DSR, pin 7 SIG GND, pin 8 DCD, pin 15 TXC, pin17 RXC, pin 20 DTR, pin

22 RI, pin 24 ETC).

Step 2 (external remote management cable): Run Applied Innovation (www.appliedinnovation.com) CAB181-

XXX cable (-XXX denotes footage) from Primary rack CB1 shelf rear side conversion cable RS232 connector to CO

Remote management AI Switch DP196-23 (X.25 synch) port. See BOTC-SEG-0100 section 11.

K) Pair Gain Test Controller (PGTC) for -2000 or -2012 Primary rack (see section 4):

Step 1 (mult cable): See step 2 if direct cabling to PGTC or XTC is required. The -2000 UFAP or -2012 CC shelf

(UFAP component) has a PGTC board with J13 female and J14 male (even though designated J for jack) 50 pin

connectors for PGTC cables. These two connectors are internally common (either one can be used for from/to

mult connections). Run a 25 pair 200A type cable (see BOTC-SEG-0100 section 14) with male 90 degree connector

on new Litespan system end and back-to-back male/female connector on other end. If preceding Pair Gain system

(end of existing mult) is Litespan, use female side of back-to-back connector. If preceding Pair Gain system is ADC

PG-Flex, Nortel DMS-1 or Lucent SLC, use male side of back-to-back connector. BOTC recommends using a Cablcon

T1523-0342-XXX formed cable (see BOTC-SEG-0100 section 7 for manufacturer contact, –XXX indicates footage).

Step 2 (direct cable): In rare cases, direct cabling (still 25 pair 200A type from Litespan J13 connector) may be

required to a Lucent PGTC or Extended Test Controller (XTC) shelf. If XTC (T7C127-31 figure 14), the cable must

be 90 degree male on both ends (Cablcon T1523-0338-XXX or Great Lakes 97225-XXX recommended). If PGTC, the

cable is 90 degree male at Litespan end (Cablcon T1523-0336-XXX or Great Lakes 97223-XXX recommended) with

a T97760-30 figure 3 PGTC wire wrap connection per figure 5K below.

10

http://www.appliedinnovation.com/

BOTC-TEG-1200 J13

pinLead Color

J13

pinLead Color

J13

pinLead Color

J13

pinLead Color

J13

pinLead Color

26 TIP-A W-BL 31 SLV-C R-BL 36 LOK-A BK-BL 41 Spare Y-BL 46 Spare V-BL

1 RING-A BL-W 6 SLV-D BL-R 11 LOK-B BL-BK 16 Spare BL-Y 21 Spare BL-V

27 TIP-B W-O 32 OH-A R-O 37 LOK-C BK-O 42 TST ALM Y-O 47 SZ V-O

2 RING-B O-W 7 OH-B O-R 12 LOK-D O-BK 17 T-MAJ O-Y 22 SZ BY O-V

28 TIP-C W-G 33 OH-C R-G 38 Spare BK-G 43 Spare Y-G 48 Spare V-G

3 RING-C G-W 8 OH-D G-R 13 Spare G-BK 18 Spare G-Y 23 Spare G-V

29 TIP-D W-BR 34 PROC-A R-BR 39 Spare BK-BR 44 Spare Y-BR 49 Spare V-BR

4 RING-D BR-W 9 PROC-B BR-R 14 Spare BR-BK 19 Spare BR-Y 24 Spare BR-V

30 SLV-A W-S 35 PROC-C R-S 40 Spare BK-S 45 Spare Y-S 50 Spare V-S

5 SLV-B S-W 10 PROC-D S-R 15 Spare S-BK 20 Spare S-Y 25 Spare S-V

FIGURE 5K

Lead designations and color code for wire wrap of

25 pair cable from Litespan PGTC board J13

connector to T97760-30 figure 3 on PGTC shelf. L) Metallic Test Pairs (MTP) for -2000 or -2012 Primary rack (see section 4): Step 1 (wire to DF): The -2000 UFAP or -2012 CC shelf (UFAP component) has a PGTC board with six wire wrap

pins on TB8 J1. Run one 24 AWG quad and one 24 AWG pair (see BOTC-SEG-0700 section 8) from Litespan TB8

(pin 1 for Tip-1, 2 for Ring-1, 3 for Inhibit-1, 4 for Tip-2, 5 for Ring-2, 6 for Inhibit-2) to a DF block location as

designated by Service Provider/Telco personnel. Terminate and stencil leads on one DF block pin column in Tip,

Ring, Inhibit sequence (T-1 at bottom of column, see BOTC-SEG-0300 section 5).

M) Internal dial-up modem for -2000 or -2012 Primary rack: Step 1 (consult with Service Provider/Telco): -2000 UFAP and -2012 CC shelves have an internal 212A, 1200

baud dial-up modem designed to provide occasional remote diagnostic capability by Alcatel’s technical support

group. To prevent unauthorized access, DF cross connect jumpers should be removed when testing has been

completed. Engineering vendors should consult with Service Provider/Telco personnel on the need for this feature

(put up, take down routine for DF jumpers may be too cumbersome).

Step 2 (wire to DF): If this feature is required, run one 24 AWG pair (see BOTC-SEG-0700 section 8) from -2000

UFAP or -2012 CC shelf (UFAP component) TB6 J21 pin B3 (Tip) and B4 (Ring) to a DF block location as designated

by Service Provider/Telco personnel. Terminate and stencil leads on one DF block pin column (Tip at bottom of

column, see BOTC-SEG-0300 section 5).

N) CO-ENE span fiber for -2000 or -2012 Primary rack: Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco

personnel about the number of CC shelf OC3C/OC12C span fiber circuits as described in section 1 (single circuit

point-to-point using East slots or dual circuit multi-point using East and West slots?).

Step 2 (fiber to FDF): If this feature is required, each circuit has four fiber conductors (work TX/RX Group A and

protect TX/RX Group B) with SC connectors at the Litespan end. Run the required number of fiber conductors (see

BOTC-SEG-0400) from CC shelf to FDF.

P) Drop side channel OC3 fiber for -2012 Primary rack: Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco

personnel on the need for this feature (three CC shelf drop side channels are optional, could be OC3 fiber or DS3

coax as described in section 1) and if protection fiber is required (since span is entirely within CO building).

Step 2 (fiber to FDF): If this feature is required, each of the three channels has two (work only TX/RX Group 1A,

2A or 3A) or four (work/protect TX/RX Group 1A/1B, 2A/2B or 3A/3B) fiber conductors with SC connectors at the

Litespan end. Run the required number of fiber conductors (see BOTC-SEG-0400) from CC shelf to FDF.

11

BOTC-TEG-1200 Q) Drop side channel DS3 coax for -2012 Primary rack:

Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco

personnel on the need for this feature (three CC shelf drop side channels are optional, could be OC3 fiber or DS3

coax as described in section 1, each channel can have up to three DS3 circuits).

Step 2 (coax to DSX-3/DCS): If this feature is required, the CC shelf has a Broadband Termination Board (BBT)

for termination of up to nine DS3 TX/RX circuits (three Groups of three each). TX/RX factory stenciling on the BBT

refers to CO-ENE Line side transmission (TX is signal received by Litespan from DSX-3/DCS and transmitted on

Line side fiber, RX is signal received by Litespan from Line side fiber and transmitted to DSX-3/DCS). Run the

required number of coax conductors from CC shelf BBT to DSX-3 or DCS using 90 degree BNC connectors at the

Litespan end (see BOTC-SEG-0200).

Group Circuit TX (IN) RX (OUT) Group Circuit TX (IN) RX (OUT) Group Circuit TX (IN) RX (OUT)

1-1 J91 J81 2-1 J94 J84 3-1 J97 J87

1-2 J92 J82 2-2 J95 J85 3-2 J98 J88

1-3 J93 J83 2-3 J96 J86 3-3 J99 J89

FIGURE 5Q

BBT BNC designations.

31 2

R) DS1 for -2000 or -2012 Primary and Expansion racks:

Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco

personnel about the number of DS1 circuits and which CB shelves are involved. Each CB shelf can have up to 56

DS1 circuits. As described in section 1, Primary rack CB1 and CB2 may be fully or partially dual cabled (DS1 and

VF/DS0). It’s possible (but unlikely) that Expansion rack CB shelves will need DS1 cabling (shelves are typically

VF/DS0 only per section 6).

Step 2 (cable to DSX-1/DCS): Each CB shelf has six rear side 25 pair DS1 connectors designated J1 (RX 1-20), J2

(TX 1-20), J3 (RX 21-40), J4 (TX 21-40), J5 (RX 41-56) and J6 (TX 41-56). If the CB is fully DS1 cabled, two 56 pair

cables (one TX, one RX) should be used per BOTC-SEG-0100 section 6 and 14. At the Litespan end, each cable will

break out into three male connectorized legs (blue binder for 1-20, orange binder for 21-40, green binder for 41-

56). If the CB is partially DS1 cabled, use sets of two 20 pair DS1 cables as required. Form the cable drain wire to

pin 25 (Litespan CB internal ground) on one of the connectors (do not ground cable at DSX-1/DCS end). Figure 5R

below shows the connector lead designations and color code. BOTC recommends these factory formed cables (see

BOTC-SEG-0100 section 7 for manufacturer contacts). –XXX indicates footage.

56 pair 26 AWG 1249C type: Each part number provides two 56 pair cables with three male connectorized legs

(1-20, 21-40, 41-56) at the Litespan end. Drain wire is formed to pin 25 on one connector.

Cablcon T0820-0008-XXX, Conway CCI-C239-XXX or Great Lakes 97248-XXX.

56 pair 22 AWG 600C type: Each part number provides two 56 pair cables with three male connectorized legs

(1-20, 21-40, 41-56) at the Litespan end. Drain wire is formed to pin 25 on one connector.

Conway CCI-880-XXX, Great Lakes 97247-XXX or CSI CA2XXXX05J0001.

20 pair 26 AWG 1249C type: Each part number provides one 20 pair cable with one male connector at the

Litespan end. Drain wire is formed to pin 25 on connector.

Cablcon T0820-0036-XXX or Conway CCI-C248-XXX.

20 pair 22 AWG 600C type: Each part number provides one 20 pair cable with one male connector at the

Litespan end. Drain wire is formed to pin 25 on connector.

Conway CCI-C446-XXX or CSI CA2XXXX139DSC1.

12

Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color

26 T-1 W-BL 31 T-6 R-BL 36 T-11 BK-BL 41 T-16 Y-BL 46 N/C -

1 R-1 BL-W 6 R-6 BL-R 11 R-11 BL-BK 16 R-16 BL-Y 21 N/C -

27 T-2 W-O 32 T-7 R-O 37 T-12 BK-O 42 T-17 Y-O 47 N/C -

2 R-2 O-W 7 R-7 O-R 12 R-12 O-BK 17 R-17 O-Y 22 N/C -

28 T-3 W-G 33 T-8 R-G 38 T-13 BK-G 43 T-18 Y-G 48 N/C -

3 R-3 G-W 8 R-8 G-R 13 R-13 G-BK 18 R-18 G-Y 23 N/C -

29 T-4 W-BR 34 T-9 R-BR 39 T-14 BK-BR 44 T-19 Y-BR 49 N/C -

4 R-4 BR-W 9 R-9 BR-R 14 R-14 BR-BK 19 R-19 BR-Y 24 N/C -

30 T-5 W-S 35 T-10 R-S 40 T-15 BK-S 45 T-20 Y-S 50 N/C -

5 R-5 S-W 10 R-10 S-R 15 R-15 S-BK 20 R-20 S-Y 25 DRAIN -





































27 T-42 W-O 32 T-47 R-O 37 T-52 BK-O 42 Spare Y-O 47 N/C -

2 R-42 O-W 7 R-47 O-R 12 R-52 O-BK 17 Spare O-Y 22 N/C -

28 T-43 W-G 33 T-48 R-G 38 T-53 BK-G 43 Spare Y-G 48 N/C -

3 R-43 G-W 8 R-48 G-R 13 R-53 G-BK 18 Spare G-Y 23 N/C -

29 T-44 W-BR 34 T-49 R-BR 39 T-54 BK-BR 44 Spare Y-BR 49 N/C -

4 R-44 BR-W 9 R-49 BR-R 14 R-54 BR-BK 19 Spare BR-Y 24 N/C -

30 T-45 W-S 35 T-50 R-S 40 T-55 BK-S 45 Spare Y-S 50 N/C -

5 R-45 S-W 10 R-50 S-R 15 R-55 S-BK 20 Spare S-Y 25 DRAIN -

CB s

helf

J1 R

X co

nn (B

lue

bind

er) BOTC-TEG-1200

CB s

helf

J2 T

X co

nn (B

lue

bind

er)

CB s

helf

J3 R

X co

nn (O

rang

e bi

nder

)CB

she

lf J5

RX

conn

(Gre

en b

inde

r)

FIGURE 5R

(continued on

page 14)

Lead designations

and color code for

Litespan CB shelf

DS1 connectors.

CB s

helf

J4 T

X co

nn (O

rang

e bi

nder

)

13

BOTC-TEG-1200




27 T-42 W-O 32 T-47 R-O 37 T-52 BK-O 42 Spare Y-O 47 N/C -

2 R-42 O-W 7 R-47 O-R 12 R-52 O-BK 17 Spare O-Y 22 N/C -

28 T-43 W-G 33 T-48 R-G 38 T-53 BK-G 43 Spare Y-G 48 N/C -

3 R-43 G-W 8 R-48 G-R 13 R-53 G-BK 18 Spare G-Y 23 N/C -

29 T-44 W-BR 34 T-49 R-BR 39 T-54 BK-BR 44 Spare Y-BR 49 N/C -

4 R-44 BR-W 9 R-49 BR-R 14 R-54 BR-BK 19 Spare BR-Y 24 N/C -

30 T-45 W-S 35 T-50 R-S 40 T-55 BK-S 45 Spare Y-S 50 N/C -

5 R-45 S-W 10 R-50 S-R 15 R-55 S-BK 20 Spare S-Y 25 DRAIN -

FIGURE 5R

(continued from

page 13)

Lead designations

and color code for

Litespan CB shelf

DS1 connectors.

CB s

helf

J6 T

X co

nn (G

reen

bin

der)

6. System VF/DS0 connection and DF block layout/pair count/wiring color code:

A) Cables: Each CB shelf has nine rear side 25 pair VF/DS0 connectors designated P1 to P9. On odd numbered CB

shelves, the last P9 pair is dead. On even numbered CB shelves, the first P1 pair is dead. Two 100 pair (for P1-P4

and P5-P8) and one 25 pair (for P9) cables should normally be used for each shelf. If assignments require P1-P4

or P5-P8 to be split between two DF verticals, 25 pair cables should be used for those connectors. The 100 pair

cables have four connectorized legs (blue binder for P1 or P5, orange binder for P2 or P6, green binder for P3 or

P7, brown binder for P4 or P8). The cables should be 1107A type (see BOTC-SEG-0100 section 8 and 14) with

female connectors on the shelf end. At the shelf end, each cable must have a 3 foot long insulated drain wire that

will be connected to relay rack ground by installation. BOTC recommends these factory formed cables (see BOTC-

SEG-0100 section 7 for manufacturer contacts). –XXX indicates footage.

100 pair: Cablcon T0820-0023-XXX, Great Lakes 97234-XXX or CSI CA4XXX2670001.

25 pair: Cablcon T0820-0026-XXX, Great Lakes 97161-XXX or CSI CA4XXXX102TSD1.

B) Pair count: Litespan VF/DS0 pairs should be DF stenciled using a CO Switch Digital Loop Equipment (DLE)

method called Carrier Controller Indentifier/Carrier Controller Port (CCI/CCPT). This method designates each pair

by it’s shelf number, shelf slot number and slot pair number. Each CB shelf has 56 slots with 4 Tip/Ring circuits

per slot for a total of 224 active pairs (DF termination includes 1 dead pair since CB has nine 25 pair connectors).

For example, CB shelf 2, slot 17, pair 4 would be designated 2-17-4. See figure 6A (odd numbered CBs) and 6B

(even numbered CBs).

C) DF block layout: Full TR-57 systems (nine CB shelves) require twenty-one 100 pair blocks. GR-303 systems

(three CB shelves) require seven 100 pair blocks. See BOTC-SEG-0300 section 2 or 8 for block part numbers. If the

DF is Conventional, blocks mount on the vertical side. Figure 6C (Conventional) and 6D (Cosmic) detail the layout.

14

BOTC-TEG-1200

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

26 T-1 W-BL 31 T-2 R-BL 36 T-3 BK-BL 41 T-4 Y-BL 46 T-1 V-BL

1 R-1 BL-W 6 R-2 BL-R 11 R-3 BL-BK 16 R-4 BL-Y 21 R-1 BL-V

27 T-2 W-O 32 T-3 R-O 37 T-4 BK-O 42 T-1 Y-O 47 T-2 V-O

2 R-2 O-W 7 R-3 O-R 12 R-4 O-BK 17 R-1 O-Y 22 R-2 O-V

28 T-3 W-G 33 T-4 R-G 38 T-1 BK-G 43 T-2 Y-G 48 T-3 V-G

3 R-3 G-W 8 R-4 G-R 13 R-1 G-BK 18 R-2 G-Y 23 R-3 G-V

29 T-4 W-BR 34 T-1 R-BR 39 T-2 BK-BR 44 T-3 Y-BR 49 T-4 V-BR

4 R-4 BR-W 9 R-1 BR-R 14 R-2 BR-BK 19 R-3 BR-Y 24 R-4 BR-V

30 T-1 W-S 35 T-2 R-S 40 T-3 BK-S 45 T-4 Y-S 50 T-1 V-S

5 R-1 S-W 10 R-2 S-R 15 R-3 S-BK 20 R-4 S-Y 25 R-1 S-V









































17

18

18

19

19

20

21

22

22

23

23

24

24

25

6

7

7

8

8

9

9

10

11

12

12

13

CB s

helf

P3 c

onn

(Gre

en b

inde

r)CB

she

lf P1

con

n (B

lue

bind

er)

1

2

2

3

3

4

4

5

13

14

14

15

16

17

FIGURE 6A (continued on page 16)

CB s

helf

P5 c

onn

(Blu

e bi

nder

)CB

she

lf P4

con

n (B

row

n bi

nder

)

26

27

27

28

28

29

29

30

31

32

CB s

helf

P2 c

onn

(Ora

nge

bind

er)

Lead designations and color code for Litespan ODD CB shelf VF/DS0 connectors. 15

BOTC-TEG-1200

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r







































30 T-1 W-S 35 T-2 R-S 40 T-3 BK-S 45 T-4 Y-S 50 T V-S

5 R-1 S-W 10 R-2 S-R 15 R-3 S-BK 20 R-4 S-Y 25 R S-V

42

43

43

44

44

45

46

47

47

48

48

49

49

50

Lead designations and color code for Litespan ODD CB shelf VF/DS0 connectors.

CB s

helf

P7 c

onn

(Gre

en b

inde

r)

38

39

FIGURE 6A (continued from page 15)

CB s

helf

P9 c

onn

51

52

52

53

53

54

54

55

56

Dea

d

37

38

39

40

CB s

helf

P8 c

onn

(Bro

wn

bind

er)

CB s

helf

P6 c

onn

(Ora

nge

bind

er)

32

33

33

34

34

35

36

37

41

42

16

BOTC-TEG-1200

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

26 T W-BL 31 T-1 R-BL 36 T-2 BK-BL 41 T-3 Y-BL 46 T-4 V-BL

1 R BL-W 6 R-1 BL-R 11 R-2 BL-BK 16 R-3 BL-Y 21 R-4 BL-V

















































25

26

27

28

28

29

29

30

30

31

Lead designations and color code for Litespan EVEN CB shelf VF/DS0 connectors.

CB s

helf

P2 c

onn

(Ora

nge

bind

er)

8

9

FIGURE 6B (continued on page 18)

CB s

helf

P5 c

onn

(Blu

e bi

nder

)CB

she

lf P4

con

n (B

row

n bi

nder

)

19

20

7

8

CB s

helf

P3 c

onn

(Gre

en b

inde

r)CB

she

lf P1

con

n (B

lue

bind

er)

13

14

14

15

15

16

Dea

d

1

2

3

3

4

4

5

5

6

20

21

22

23

23

24

24

25

9

10

10

11

12

13

17

18

18

19

17

BOTC-TEG-1200

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r

Pin

Slot

Lead

Colo

r









































54

54

55

55

56

44

45

45

46

47

48

48

49

49

50

32

33

33

34

34

35

35

36

37

38

38

39

39

40

40

41

42

43

43

44

Lead designations and color code for Litespan EVEN CB shelf VF/DS0 connectors.

CB s

helf

P7 c

onn

(Gre

en b

inde

r)

FIGURE 6B (continued from page 17)

CB s

helf

P9 c

onn

50

51

52

53

53

CB s

helf

P8 c

onn

(Bro

wn

bind

er)

CB s

helf

P6 c

onn

(Ora

nge

bind

er)

18

BOTC-TEG-1200

T R T R T R T R T R T R T R T R T R T R T R T R

FIGURE 6C

Conventional block layout for Alcatel Litespan CB shelf VF/DS0 pairs.

These examples of the 1st, 2nd, 3rd blocks assume that DF cabling starts with CB1.

View is from block's front (jumper) side.

1st Conventional block 2nd Conventional block 3rd Conventional block

1-7-1

1-8-1

1-9-1

1-10-1

1-11-1

1-12-1

1-13-1

1-14-1

1-15-1

1-16-1

1-17-1

1-18-1

1-9-3

1-10-3

1-11-3

1-12-3

1-22-2

1-23-2

1-1-1

1-2-1

1-3-1

1-4-1

1-5-1

1-6-1

1-14-2

1-15-2

1-25-1

1-1-2

1-2-2

1-3-2

1-4-2

1-5-2

1-6-2

1-7-2

1-8-2

1-9-2

1-19-1

1-20-1

1-21-1

1-22-1

1-23-1

1-24-1 1-24-2

1-25-2

1-1-3

1-2-3

1-3-3

1-4-3

1-5-3

1-6-3

1-16-2

1-17-2

1-18-2

1-19-2

1-20-2

1-21-2

1-10-2

1-11-2

1-12-2

1-13-2

1-25-3

1-19-3

1-20-3

1-21-3

1-22-3

1-23-3

1-1-4

1-2-4

1-3-4

1-4-4

1-5-4

1-6-4

1-7-4

1-8-4

1-9-4

1-24-3

1-13-3

1-14-3

1-15-3

1-16-3

1-17-3

1-18-3

1-7-3

1-8-3

1-25-4

1-26-1 1-26-2

1-28-1 1-28-2

1-30-1 1-30-2

1-16-4

1-17-4

1-18-4

1-19-4

1-20-4

1-21-4

1-10-4

1-11-4

1-12-4

1-13-4

1-14-4

1-15-4

1-38-1 1-38-2

1-42-1 1-42-2

1-46-1

1-26-3 1-26-4

1-27-1 1-27-2 1-27-3 1-27-4

1-22-4

1-23-4

1-24-4

1-30-3 1-30-4

1-31-1 1-31-2 1-31-3 1-31-4

1-28-3 1-28-4

1-29-1 1-29-2 1-29-3 1-29-4

1-34-1 1-34-2 1-34-3 1-34-4

1-35-1 1-35-2 1-35-3 1-35-4

1-32-1 1-32-2 1-32-3 1-32-4

1-33-1 1-33-2 1-33-3 1-33-4

1-38-3 1-38-4

1-39-1 1-39-2 1-39-3 1-39-4

1-36-1 1-36-2 1-36-3 1-36-4

1-37-1 1-37-2 1-37-3 1-37-4

1-42-3 1-42-4

1-43-1 1-43-2 1-43-3 1-43-4

1-40-1 1-40-2 1-40-3 1-40-4

1-41-1 1-41-2 1-41-3 1-41-4

1-46-2 1-46-3 1-46-4

1-47-1 1-47-2 1-47-3 1-47-4

1-44-1 1-44-2 1-44-3 1-44-4

1-45-1 1-45-2 1-45-3 1-45-4

1-51-3 1-51-4

1-52-1 1-52-2 1-52-3 1-52-4

1-50-1 1-50-2 1-50-3 1-50-4

1-51-1 1-51-2

1-53-1 1-53-2

1-55-1 1-55-2

1-48-1 1-48-2 1-48-3 1-48-4

1-49-1 1-49-2 1-49-3 1-49-4

1-55-3 1-55-4

1-56-1 1-56-2 1-56-3 1-56-4

1-53-3 1-53-4

1-54-1 1-54-2 1-54-3 1-54-4

2-2-3 2-2-4 2-3-1 2-3-2

2-3-3 2-3-4 2-4-1 2-4-2

1-Dead 2-Dead 2-1-1 2-1-2

2-1-3 2-1-4 2-2-1 2-2-2

2-6-3 2-6-4 2-7-1 2-7-2

2-7-3 2-7-4 2-8-1 2-8-2

2-4-3 2-4-4 2-5-1 2-5-2

2-5-3 2-5-4 2-6-1 2-6-2

2-10-3 2-10-4 2-11-1 2-11-2

2-11-3 2-11-4 2-12-1 2-12-2

2-8-3 2-8-4 2-9-1 2-9-2

2-9-3 2-9-4 2-10-1 2-10-2

2-14-3 2-14-4 2-15-1 2-15-2

2-15-3 2-15-4 2-16-1 2-16-2

2-12-3 2-12-4 2-13-1 2-13-2

2-13-3 2-13-4 2-14-1 2-14-2

2-18-3 2-18-4 2-19-1 2-19-2

2-16-3 2-16-4 2-17-1 2-17-2

2-17-3 2-17-4 2-18-1 2-18-2

19

BOTC-TEG-1200

T

R

T

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FIGURE 6D

1-19

-41-

13-3

1-7-

21-

1-1

1-15

-31-

9-2

1-3-

1

1-8-

31-

2-2

1-21

-21-

15-1

1-8-

41-

2-3

1-9-

11-

2-4

1-20

-41-

14-3

1-8-

21-

2-1

1-20

-11-

13-4

1-7-

31-

1-2

1-20

-2

1-20

-31-

14-2

1-14

-11-

7-4

1-1-

3

1-8-

11-

1-4

1-22

-41-

16-3

1-10

-21-

4-1

1-22

-11-

15-4

1-21

-31-

15-2

1-21

-11-

14-4

1-21

-4

1-10

-11-

3-4

1-22

-31-

16-2

1-9-

31-

3-2

1-22

-21-

9-4

1-16

-11-

3-3

1-23

-31-

17-2

1-11

-11-

4-4

1-23

-41-

17-3

1-11

-21-

5-1

1-23

-11-

16-4

1-10

-31-

4-2

1-23

-21-

17-1

1-10

-41-

4-3

1-24

-31-

18-2

1-12

-11-

5-4

1-24

-41-

18-3

1-12

-21-

6-1

1-24

-11-

17-4

1-11

-31-

5-2

1-24

-21-

18-1

1-11

-41-

5-3

1-25

-31-

19-2

1-13

-11-

6-4

1-25

-41-

19-3

1-13

-21-

7-1

1-25

-11-

18-4

1-12

-31-

6-2

1-25

-21-

19-1

1-12

-41-

6-3

1st Cosmic block

1-26

-1

1-26

-2

1-26

-3

1-26

-4

1-27

-1

1-27

-2

1-27

-3

1-27

-4

1-28

-1

1-28

-2

1-28

-3

1-28

-4

1-29

-1

1-29

-2

1-29

-3

1-29

-4

1-30

-1

1-30

-2

1-30

-3

1-30

-4

1-31

-1

1-31

-2

1-31

-3

1-31

-4

1-32

-1

1-32

-2

1-32

-3

1-32

-4

1-33

-1

1-33

-2

1-33

-3

1-33

-4

1-34

-1

1-34

-2

1-34

-3

1-34

-4

1-35

-1

1-35

-2

1-35

-3

1-35

-4

1-36

-1

1-36

-2

1-36

-3

1-36

-4

1-37

-1

1-37

-2

1-37

-3

1-37

-4

1-38

-1

1-38

-2

1-38

-3

1-38

-4

1-39

-1

1-39

-2

1-39

-3

1-39

-4

1-40

-1

1-40

-2

1-40

-3

1-40

-4

1-41

-1

1-41

-2

1-41

-3

1-41

-4

1-42

-1

1-42

-2

1-42

-3

1-42

-4

1-43

-1

1-43

-2

1-43

-3

1-43

-4

1-44

-1

1-44

-2

1-44

-3

1-44

-4

1-45

-1

1-45

-2

1-45

-3

1-45

-4

1-46

-1

1-46

-2

1-46

-3

1-46

-4

1-47

-1

1-47

-2

1-47

-3

1-47

-4

1-48

-1

1-48

-2

1-48

-3

1-48

-4

1-49

-1

1-49

-2

1-49

-3

1-49

-4

1-50

-1

1-50

-2

1-50

-3

1-50

-4

2nd Cosmic block

1-51

-1

1-51

-2

1-51

-3

1-51

-4

1-52

-1

1-52

-2

1-52

-3

1-52

-4

1-53

-1

1-53

-2

1-53

-3

1-53

-4

1-54

-1

1-54

-2

1-54

-3

1-54

-4

1-55

-1

1-55

-2

1-55

-3

1-55

-4

1-56

-1

1-56

-2

1-56

-3

1-56

-4

1-D

ead

2-D

ead

2-1-

1

2-1-

2

2-1-

3

2-1-

4

2-2-

1

2-2-

2

2-2-

3

2-2-

4

2-3-

1

2-3-

2

2-3-

3

2-3-

4

2-4-

1

2-4-

2

2-4-

3

2-4-

4

2-7-

1

2-7-

2

2-7-

3

2-7-

4

2-8-

1

2-8-

2

2-8-

3

2-8-

4

2-9-

1

2-18

-1

2-18

-2

2-18

-3

2-18

-4

2-12

-4

2-13

-1

2-5-

1

2-5-

2

2-5-

3

2-5-

4

2-6-

1

2-6-

2

2-6-

3

2-6-

4

2-11

-1

2-11

-2

2-11

-3

2-11

-4

2-12

-1

2-12

-2

2-12

-3

2-9-

2

2-9-

3

2-9-

4

2-10

-1

2-10

-2

2-10

-3

2-10

-4

These examples of the 1st, 2nd, 3rd blocks assume that DF cabling

starts with CB1. View is from block's front (jumper) side.

Cosmic block layout for Alcatel Litespan CB shelf VF/DS0 pairs.

2-19

-1

2-19

-2

3rd Cosmic block

2-15

-3

2-15

-4

2-16

-1

2-16

-2

2-16

-3

2-16

-4

2-17

-1

2-17

-2

2-17

-3

2-13

-2

2-13

-3

2-13

-4

2-14

-1

2-14

-2

2-14

-3

2-14

-4

2-15

-1

2-15

-2

2-17

-4

20

Documents

Example Transport Engineering Guide (TEG): Alcatel ... Example Transport Engineering Guide (TEG): Alcatel Litespan-2000 and -2012. Central Office applications. Section Table of Contents