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BOTC-TEG-1150
Example Transport Engineering Guide (TEG): Alcatel 7330 Intelligent Services Access Manager ARAM-D. FTTN and IPDSLAM applications with options for Telcordia ME or TRE DF termination methods.
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
3 Relay rack and shelf layouts 5-6
4 Length limit for ADSL/VDSL cables 7
5 Relationship of heat dissipation methods and rack footprint 7
6 Voltage leak between redundant power loads
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.
7
7 System connection details (except DROP/CO LINES) 8-9
8 DROP/CO LINE connection and DF block layout/pair count/wiring color code 9-15
Issue Revisions Date
1 Original release of Bill Oakes Engineering Guideline for Alcatel 7330. August 17, 2005
10 Revise into Word format. August 23, 2007
Acronyms: American Wire Gauge (AWG), Asynchronous Digital Subscriber Line (ADSL), Battery Distribution Fuse
Board (BDFB), Cable Pair (CP), Central Office (CO), Distributing Frame (DF), Enclosed Network Extension-
RT/CEV/Hut/Prem (ENE), Fiber Distribution Frame (FDF), Fiber To The Node (FTTN), Intelligent Services Access
Manager (ISAM), Internet Protocol (IP), Internet Protocol Digital Subscriber Line Access Multiplexer (IPDSLAM),
Network Element (NE), Office Equipment (OE), Receive (RX), Super Hub Office (SHO), Support Engineering Guide
(SEG), Transmit (TX), Very high bit rate Digital Subscriber Line (VDSL), Video Hub Office (VHO).
Bill Oakes Telecom Consultants (BOTC)
[email protected], 831-476-0453
Copyright 2005. All rights reserved.
1
BOTC-TEG-1150
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
Weight 319 pounds
Timing (BITS) N/A
Alarms 1 discrete
Remote
management See remarks
DF blocks 12
PWFYANWCAA
VANF500CRA
Telect 20HPGMT05R fuse panel.
Alcatel 7330 ARAM-D shelf
7330 shelf wattage is 450 for FTTN, 330 for IPDSLAM Hub Host or Host and
290 for IPDSLAM Expansion. Three shelf total for rack must be calculated
on each job.
No timing requirement for 7330 shelves (even though PWIO-B card has
BITS connector) since FTTN/IPDSLAM function uses Etherent transport
instead of Sonet transport (which normally requires timing).
1 status point required on CO alarm system for rack fuse panel alarm.
Four 100 pair blocks per 7330 shelf with three shelves per rack. See BOTC-
SEG-0300 section 2 or 8. If the DF is Conventional, blocks mount on
horizontal side. Some jobs may require placement at different locations
along DF (see section 8 part E).
7330 shelf electronics are manufacturer designed for in-band remote
management via fiber overhead to upstream IP switch (Alcatel 7450 ESS-7
for example). Optional RS232 back-up link per section 7 part D.
Peak/LIST 2
amperage at
42.6V
See remarks
7330 shelf LIST 2 amperage is 14.01 for FTTN, 12.54 for IPDSLAM Hub Host
or Host and 11.39 for IPDSLAM Expansion. Three shelf total for rack must
be calculated on each job.
Data sheet for CO Alcatel 7330 ARAM-D relay rack
Footprint
Remarks
One relay rack: 120 pounds. One fuse panel: 10 pounds. Three heat
baffles: 15 pounds. Three fully equipped 7330 shelves (58 pounds each):
174 pounds. See BOTC-SEG-0600 section 7B.
See remarks12" deep ( 5" front guard box, 2" rear guard box). Width depends on
Service Provider/Telco heat dissipation methods (see section 5).
CLEI codes (see
BOTC-SEG-0600
section 4)
Nominal/LIST 1
amperage at
52V
See remarks
7330 shelf LIST 1 amperage is 8.81 for FTTN, 6.46 for IPDSLAM Hub Host or
Host and 5.67 for IPDSLAM Expansion. Three shelf total for rack must be
calculated on each job.
Heat
dissipationSee remarks
2
BOTC-TEG-1150
1. Overview:
Service Providers/Telcos are deploying Internet Protocol (IP) distribution networks for voice, data and video
services. A small number of Super Hub Office (SHO) locations have been established to provide collection points
for national video programming. SHO fiber circuits link up to the nearest Service Provider/Telco Point Of Presence
(POP) for nationwide, backbone transport. National voice/data/video signals are then routed to POPs in major
demographic areas and handed off to a Video Hub Office (VHO). Local video programming is collected at the VHO
and blended into the national voice/data/video signal. Routers and switches (Alcatel 7750 SR-12 and 7450 ESS-7
for example) are then used to distribute this combined service to Central Offices (CO) in the demographic area.
Alcatel 7330 Intelligent Services Access Manager (ISAM) ARAM-D equipment can be used for IP voice/data/video
(triple play) or voice/data only (double play) applications. Triple play is commonly known as Fiber To The Node
(FTTN) and double play as IP Digital Subscriber Line Access Multiplexer (IPDSLAM). 7330 shelves have three
service connections:
Fiber to network: CO IP switch (7450 ESS-7) 1Gigabit Ethernet (1Gig-E) port via FDF cross connect.
Copper to network: Traditional Class 5 CO switch Office Equipment (OE) line pairs via DF cross connect.
Copper to customer: Outside plant Cable Pairs (CP) via DF cross connect using Very high bit rate Digital Subscriber
Line (VDSL) technology if FTTN or Asynchronous Digital Subscriber Line (ADSL) if IPDSLAM.
If customers want full IP service (including Voice over Internet Protocol or VoIP), the 7330 shelf converts Ethernet
fiber based IP into copper IP and transports the signal on their local loop CP. If customers want traditional voice
service (instead of VoIP), the 7330 shelf blends IP data/video (if FTTN) or IP data (if IPDSLAM) with a CO switch
OE line and forwards the combined signal on their CP.
7330 ARAM-D shelves have a termination capacity of 192 full circuits (192 OE and 192 CP) using four Low Pass
(LP) cards. LP cards have four 25 pair connectors (1 pair is dead on each connector). The connectors are factory
designated 1-24 DROP LINES, 25-48 DROP LINES (both for VDSL or ADSL CPs) and 1-24 CO LINES, 25-48 CO LINES
(both for switch OEs). ARAM-D shelves should not be confused with older vintage ARAM-B shelves (only have two
LP slots for 96 circuit capacity).
Each FTTN 7330 shelf is a stand-alone system since the sum of IP voice/data/video for 192 customers is expected
to eventually fill 1Gig-E of bandwidth (7450 ESS-7 port). IPDSLAM 7330 shelves are normally set up in a Hub Host,
Host and Expansion configuration. Assuming an average customer ADSL speed choice in the 1 Mb/s range and a
call blocking ratio of about 4 to 1 (typical for traditional switch service), twenty shelves worth of CP capacity is
required to efficiently use an upstream 1Gig-E port (1000 Mb/s). Alcatel’s Feature Group (FG) 3.0.10 for 7330
ARAM-D limits IPDSLAM systems to four shelves with 768 lines (Host shelf fiber to upstream 1Gig-E IP port, three
Expansion shelves with fiber to Host shelf). FG 3.5 increases system capacity to twenty shelves with 3840 lines
(Hub Host shelf fiber to upstream 1Gig-E IP port, four Host shelves with fiber to Hub Host, fifteen Expansion
shelves with fiber to Hub Host or Host). This TEG includes FG 3.5 methods. There is no requirement that Hub
Host, Host and Expansion shelves be located in the same relay rack or contiguous racks since all fiber between
them can cross connect at the FDF.
Prior to engineering 7330 ARAM-D equipment, vendors must consult with Service Provider/Telco personnel about
the allowable CO component (shelf to DF cable plus DF jumpers) of overall shelf to far end customer ADSL/VDSL
length limits (see section 4), heat dissipation methods (see section 5) and Telcordia Miscellaneous Equipment
(ME) versus Transmission Equipment (TRE) DF terminations (see section 8 part D).
3
BOTC-TEG-1150
2. Equipment requirements:
This section provides part number and mounting/usage details for equipment in Alcatel 7330 ARAM-D relay racks.
See section 3 figure 3A for assembly details. Plug-ins are listed here but they may be ordered separately via
Service Provider/Telco Plug-in Inventory Control System (PICS) routines. See figure 3B to 3D for shelf layouts.
A) Relay rack: One 7’ Network rack with 1.75 x 23 drilling and 5” front welded guard box. See BOTC-SEG-0600.
B) Rear guard box: 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.
C) Fuse panel: One Telect 20HPGMT05R. 1.75” high. See BOTC-SEG-0500.
D) 7330 shelf: Alcatel 3FE24319AA 7330 ARAM-D shelf. Part number includes one 3FE24322AA AFAN-L unit.
Up to three shelves per rack.
E) Shelf mounting bracket: Two Alcatel 3FE26805AA mounting brackets per 7330 shelf.
F) Heat baffle: One Alcatel heat baffle per 7330 shelf (3FE26806AA for shelf 1 and 2, 3FE26807AA for shelf 3).
G) Fan filter (PICS item?): One Alcatel 3FE24901AA fan filter per 7330 shelf (all applications).
H) PWIO-B card (PICS item?): One Alcatel 3FE24323AA PWIO-B card per 7330 shelf (all applications).
J) GENC-E card (PICS item?): One Alcatel 3FE24324AB GENC-E card per 7330 shelf (IPDSLAM Hub Host, Host
and FTTN only).
K) ECNT-A card (PICS item?): One Alcatel 3FE23086AA ECNT-A card per 7330 shelf (IPDSLAM Hub Host, Host
and FTTN only).
L) SATU-A card (PICS item?): One Alcatel 3HJ20005BA SATU-A card per 7330 shelf (IPDSLAM Expansion only).
M) EDSE-A card (PICS item?): One Alcatel 3HJ20001AA EDSE-A card per 7330 shelf (IPDSLAM Expansion only).
N) SFP optical modules (PICS item?): Required on GENC-E, ECNT-A and EDSE-A cards for termination of fiber
conductors. Use LX, EX or ZX choices as directed by Service Provider/Telco planner. See section 7 part E, F, G and
H for quantities. Alcatel 3FE25774AA (1000BASE-LX, 1310nm, 10km), 3FE25775AA (1000BASE-EX, 1310nm,
40km) or 3FE25776AA (1000BASE-ZX, 1550nm, 80km).
P) Low Pass card (PICS item?): Up to four Alcatel 3FE26509AG AVPC-A 48 channel VDSL LP cards per 7330 shelf
(all applications even though designated VDSL).
Q) Line Termination card (PICS item?): Up to four Alcatel 3FE25389AA EVLT-F 48 channel VDSL LT cards per
7330 shelf (FTTN only).
R) Line Termination card (PICS item?): Up to four Alcatel 3FE25549AA EBLT-K 48 channel Multi-ADSL LT
cards per 7330 shelf (IPDSLAM Hub Host, Host and Expansion only).
S) Filler plates (PICS item?): All unequipped 7330 shelf slots must have a filler plate. At no time should the shelf
be operational for more than 2 minutes without the front cover and filler plates in place (prevents overheating).
All 7330 shelves require one Alcatel 3FE24574AA filler plate for the NT-B slot (redundant ECNT-A or EDSE-A card
not used due to high cost of providing redundant 1Gig-E ports on upstream IP switch). One Alcatel 3FE24575AA
filler plate required for each unequipped 7330 shelf LP slot. One Alcatel 3FE24573AA filler plate required for each
unequipped 7330 shelf LT slot.
4
BOTC-TEG-1150
3. Relay rack and shelf layouts:
BV or 43
BU or 42
BT or 41
BS or 40
BR or 39
BQ or 38
BP or 37
BN or 36
BM or 35 INSTALLATION:BL or 34
BK or 33
BJ or 32
BH or 31
BG or 30 3BF or 29
BE or 28
BD or 27
BC or 26
BB or 25
BA or 24
V or 23
U or 22
T or 21
S or 20
R or 19
Q or 18
P or 17
N or 16 2 M or 15
L or 14
K or 13
J or 12
H or 11
G or 10
F or 9
E or 8
D or 7
C or 6
B or 5
A or 4
AA or 3
AB or 2 1AC or 1
AD or 0
2. 7330 shelf is shipped with mounting ears in
5" front projection position. Leave as is.
4. Mount 7330 shelf on front side of
3FE26805AA brackets. When mounted, shelf
projection will be 5" front and 2" rear.
3. Rotate 7330 shelf 90 degrees clockwise from
horizontal position.
1. Mount 3FE26805AA brackets on front side of
rack uprights.
6. When mounted in the vertical position, 7330
shelves should be offset to the right (as
detailed in layout) for improved management
of the sixteen 25 pair cables from LP cards to
rear side of rack.
Fuse panel 3FE26807AA Heat baffle
3FE26805AA Mounting bracket
3FE26805AA Mounting bracket
Abou
t 5" w
ide
open
spac
e
3FE24319AA
7330 ARAM-D shelf.
Mounted 90 degrees
clockwise from
horizontal with ears
overlapping onto
3FE26805AA brackets.
At le
ast 2
" wid
e op
en sp
ace
3FE26805AA Mounting bracket
3FE24319AA
7330 ARAM-D shelf.
Mounted 90 degrees
clockwise from
horizontal with ears
overlapping onto
3FE26805AA brackets.
At le
ast 2
" wid
e op
en sp
ace
Abou
t 5" w
ide
open
spac
e
Provide 2" x 2" vertical fiber protection duct on right front upright down to shelf 1 level.
When viewed in the horizontal position, 7330 shelves have forced ventilation intake on the right side
and exhaust on the left side. The shelves must be vertically mounted (90 degrees clockwise from
horizontal) so that hot air is not exhausted into the left adjacent rack equipment. The baffle above
each shelf is slanted up towards the rear so the shelf above pulls in normal temperature air from the
front aisle and the shelf below exhausts hot air into the rear aisle.
3FE26806AA Heat baffle
Abou
t 5" w
ide
open
spac
e
3FE24319AA
7330 ARAM-D shelf.
Mounted 90 degrees
clockwise from
horizontal with ears
overlapping onto
3FE26805AA brackets.
At le
ast 2
" wid
e op
en sp
ace
3FE26805AA Mounting bracket
1.75 x 23
5. Mount 3FE26806AA and 3FE26807AA baffle
ears on top of 3FE26805AA bracket ears.
3FE26805AA Mounting bracket 3FE26806AA Heat baffle
3FE26805AA Mounting bracket
FIGURE 3A
Layout for Alcatel 7330 ARAM-D rack (FTTN or IPDSLAM applications)
5
BOTC-TEG-1150
3FE24323AA PWIO-B 3FE24324AB GENC-E
3FE24574AA fi l ler plate3FE23086AA ECNT-A
3FE25389AA EVLT-F LT-4 3FE25389AA EVLT-F LT-3 3FE25389AA EVLT-F LT-2 3FE25389AA EVLT-F LT-1 3FE26509AG AVPC-A LP-4 3FE26509AG AVPC-A LP-3 3FE26509AG AVPC-A LP-2 3FE26509AG AVPC-A LP-1
FIGURE 3B
This view is rotated 90 degrees counterclockwise (from figure 3A shelf
mounting) for readability purposes only.
3FE2
4322
AA
AFA
N-LCo
mm
on
plug
-ins
Def
erre
d pl
ug-in
s
7330 ARAM-D shelf front view card slot details for FTTN application.
3FE24323AA PWIO-B 3FE24324AB GENC-E
3FE24574AA fi l ler plate3FE23086AA ECNT-A
3FE25549AA EBLT-K LT-4 3FE25549AA EBLT-K LT-3 3FE25549AA EBLT-K LT-2 3FE25549AA EBLT-K LT-1 3FE26509AG AVPC-A LP-4 3FE26509AG AVPC-A LP-3 3FE26509AG AVPC-A LP-2 3FE26509AG AVPC-A LP-1
FIGURE 3C
This view is rotated 90 degrees counterclockwise (from figure 3A shelf
mounting) for readability purposes only.
3FE2
4322
AA
AFA
N-LCo
mm
on
plug
-ins
Def
erre
d pl
ug-in
s
7330 ARAM-D shelf front view card slot details for IPDSLAM Hub Host and
Host applications.
3FE24323AA PWIO-B 3HJ20005BA SATU-A
3FE24574AA fi l ler plate3HJ20001AA EDSE-A
3FE25549AA EBLT-K LT-4 3FE25549AA EBLT-K LT-3 3FE25549AA EBLT-K LT-2 3FE25549AA EBLT-K LT-1 3FE26509AG AVPC-A LP-4 3FE26509AG AVPC-A LP-3 3FE26509AG AVPC-A LP-2 3FE26509AG AVPC-A LP-1
FIGURE 3D
This view is rotated 90 degrees counterclockwise (from figure 3A shelf
mounting) for readability purposes only.
3FE2
4322
AA
AFA
N-LCo
mm
on
plug
-ins
Def
erre
d pl
ug-in
s
7330 ARAM-D shelf front view card slot details for IPDSLAM Expansion
application.
6
BOTC-TEG-1150
4. Length limit for ADSL/VDSL cables:
As shown in section 1, 7330 ARAM-D LP cards have customer CP ADSL/VDSL DROP LINE and switch OE CO LINE
service connections for 25 pair cables. CO LINE cables do not have a length limit within CO buildings. Prior to
engineering 7330 ARAM-D equipment, vendors must consult with Service Provider/Telco personnel about the
allowable CO component (shelf to DF plus DF jumpers) of overall shelf to far end customer ADSL/VDSL length
limits. The length of ADSL DROP LINE cables (7330 configured for IPDSLAM service) is a consideration in large CO
buildings (7330 rack should be reasonably close to DF) but not a critical issue since overall ADSL signal reach
(shelf to far end customer) is normally in the 14,000 to 18,000 foot range. The length of VDSL DROP LINE cables
(7330 configured for FTTN) is much more uncertain due to industry inexperience with video service over copper
(CO cables/DF jumpers) and the signal strength reduction impact of DF protectors. Preliminary lab reports
indicate an overall VDSL reach (shelf to far end customer) in the 2500 to 4000 foot range. In order to provide a
viable service offering, most of the VDSL footage must be dedicated to outside plant cable. Once the CO component
has been established, engineering vendors should subtract the expected length of DF jumpers (7330 blocks on
horizontal side to customer CP protector locations on vertical side). The remainder is a VDSL DROP LINE cable
(section 8 part A) length limit. This will probably impact placement location of 7330 racks (must be close to DF).
5. Relationship of heat dissipation methods and rack footprint:
BOTC-SEG-0600 section 8 provides an overview of various heat dissipation methods. 7330 ARAM-D shelf heat
wattage is 450 for FTTN, 330 for IPDSLAM Hub Host or Host and 290 for IPDSLAM Expansion applications. Prior
to engineering new 7330 ARAM-D equipment racks, vendors must consult with Service Provider/Telco personnel.
If method 8C is used (Space Planner fully manages and balances heat issue on each NE rack deployment job),
increasing the rack footprint width to compensate for heat (by using left/right spacers) is not required. If method
8A (100 watts per square foot) or 8B (arbitrary limit) is used, determine the application for all three 7330 shelves
and sum the overall heat impact. Then use left/right spacers to increase rack footprint so it meets the given watts
per square foot standard. BOTC does not recommend artificially increasing the rack depth (creates CO placement
issues for Space Planners) or reducing the number of 7330 shelves per rack (inefficient use of BDFB assignments
and rack fuse panel) to meet the wattage standard.
6. Voltage leak between redundant power loads:
BOTC-SEG-0500 section 9 provides an overview of the relationship between NE redundant power load isolation
and fuse panel alarm circuits. The 7330 ARAM-D shelf PWIO-B card (power connection from rack fuse panel) has
an unusually high 3 volt leakage between the A and B loads. A 20HPGMT05R fuse panel is used to minimize the
impact on alarm circuits (see -0500 section 9 threshold data). BOTC would normally consider using a TPA type
fuse panel (009-8005-0404) to allow for possible future 7330 shelf LIST 2 increases (beyond the 16 amp limit for
20 amp GMT fuses) but has not done so due to the -0404 panel’s lower A and B load thresholds
.
7
BOTC-TEG-1150 7. System connection details (see section 8 for DROP/CO LINES):
A) Fuse panel:
Step (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 (.25” studs on .625”
centers) for input feeder connections (wire size determined by vendor based on job conditions). 7330 shelf
peak/LIST 2 amperage (at 42.6V) is 14.01 for FTTN, 12.54 for IPDSLAM Hub Host or Host and 11.39 for IPDSLAM
Expansion. The three shelf total LIST 2 for rack must be calculated on each job. See BOTC-SEG-0500 section 2.
Step 2 (Chassis ground): Provide 1 two hole lug (No.10 studs on .625” centers) for 6 AWG wire. Connect lug to
relay rack ground using 6 AWG wire (see BOTC-SEG-0700 section 7 and 9).
Step 3 (Alarms): Run 24 AWG Black and Red-Black wire pair (see BOTC-SEG-0700 section 8) from fuse panel R
set NO/C wire wrap pins to CO alarm system (Dantel for example) status point. No connection required for V and A
set pins.
B) Power for 7330 shelf:
Step 1 (intra-rack wiring): Connect PWIO-B card -48V BAT A, BAT RET A, -48V BAT B and BAT RET B lugs to
rack fuse panel output positions using 10 AWG Slate wire (see BOTC-SEG-0700 section 7 and 9). Provide Thomas
& Betts (or generic equivalent) RC484 ring terminals for 7330 shelf and fuse panel ends.
Step 2 (fuse panel fuses and designation pins): Maximum drain is shown in part A. Fuse externally at 20 amp.
No need to coordinate external fusing with internal 20 amp slow-blow fuses on PWIO-B card (external 20 amps
fuses will fail first). See BOTC-SEG-0500 section 14 for GMT fuse and designation pin part numbers.
C) Chassis ground for 7330 shelf:
Step 1 (intra-rack wiring): The upper shelf mounting ear (when mounted vertically per section 3 figure 3A) is
factory equipped with two ground studs. Connect one of the lugs to relay rack ground using spare 10 AWG Slate
wire from part B. Provide Thomas & Betts (or generic equivalent) RC10-10 ring terminal, 10-32 nut and No. 10
lockwasher for 7330 shelf end. No connection required for second lug since both lugs are internally common.
D) RS232 back-up remote management for 7330 shelf:
7330 shelf electronics are manufacturer designed for in-band remote management via fiber overhead to an
upstream IP switch (Alcatel 7450 ESS-7 for example). This RS232 connection is an optional back-up link that
should only be run when directed to do so by Service Provider/Telco personnel. The PWIO-B card has an RS232
asynch DB9 female craft port (DCE rating). Pinout is 2 RXD/OUT, 3 TXD/IN, 4 DTR/IN, 5 GND, 6 DSR/OUT, 7
RTS/IN, 8 CTS/OUT (pins 1 and 9 are not connected).
Step 1 (provide and attach short ribbon cable): Provide one Cablcon (www.cablcon.com) T2834-0903-002
ribbon cable (2 feet long, DB9 male to DB9 female). Connectors on ribbon cable are low profile (0.5” high) right
angle and allow full closure of 7330 shelf front cover (if over RS232 craft port) or keep cable within rack footprint
(if RS232 craft port not under cover). Attach DB9 male end of ribbon cable to PWIO-B card RS232 craft port.
Step 2 (external remote management cable): Provide one of the cables shown below and run from DB9 female
end of Cablcon ribbon cable to CO Remote management system. See BOTC-SEG-0100 section 11. XXX in cable part
number denotes footage. If far end is:
Applied Innovation AI-Scout or AI-180/AI-130 switch with DP232-23 DB25 asynch patch panel, provide Black Box
(www.blackbox.com) CBCC204261-XXX DB9 male to DB25 male cable.
Applied Innovation AI-180/AI-130 switch with DP232-RJ45 panel, provide Westek (www.westekelectronics.com)
DT280116/XXX DB9 male to RJ45 male cable.
Cisco 2511 router, provide Westek DT280119/XXX DB9 male to RJ45 male cable.
Cisco 3662 router, provide Great Lakes (www.greatwire.com) 96882-XXX DB9 male to HD60 male cable.
8
BOTC-TEG-1150 E) Upstream fiber for 7330 FTTN or IPDSLAM Hub Host and Host shelves: Step 1 (run fiber conductors): ECNT-A card should have SFP module (see section 2 part N) in port 1 slot. SFP
has one set of TX/RX ports with LC connectors. Run 2 fiber conductors (see BOTC-SEG-0400) from SFP to the FDF.
If FTTN or IPDSLAM Hub Host application, cross connect is to IP switch (Alcatel 7450 ESS-7 for example) 1Gig-E
port. If IPDSLAM Host application, cross connect is to Hub Host downstream fiber (part F). Per section 3 figure 3A,
vertical duct material should be provided on the 7330 rack right front upright for protection and management of
fiber conductors.
F) Downstream fiber for 7330 IPDSLAM Hub Host shelf (to Host shelves): Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco personnel about the planned number of Host shelves in this IPDSLAM system. The once per system Hub Host shelf can support up to four Host shelves. Step 2 (run fiber conductors): Hub Host ECNT-A card port 2, 3 and GENC-E card port 4, 5 can have SFP module
(see section 2 part N) for 1st, 2nd, 3rd and 4th Host ECNT-A port 1. Each SFP has one set of TX/RX ports with LC
connectors. Run 2 fiber conductors (see BOTC-SEG-0400) from each equipped SFP to the FDF. Total conductor
quantity is 2, 4, 6 or 8. Cross connect is to Host upstream fiber (part E).
G) Downstream fiber for 7330 IPDSLAM Hub Host and Host shelves (to Expansion shelves): Step 1 (consult with Service Provider/Telco): Engineering vendors should consult with Service Provider/Telco personnel about the planned number of Expansion shelves for this IPDSLAM system. Hub Host shelf and each of the four allowable Host shelves can support up to three Expansion shelves (up to fifteen Expansion possible). Step 2 (run fiber conductors): Hub Host and Host GENC-E card port 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 can
have SFP module (see section 2 part N) for 1st, 2nd and 3rd Expansion EDSE-A card port 1 to 4. Each SFP has one set
of TX/RX ports with LC connectors. Run 2 fiber conductors (see BOTC-SEG-0400) from each equipped SFP to the
FDF. Total conductor quantity is 8, 16 or 24. Cross connect is to Expansion upstream fiber (part H).
H) Upstream fiber for 7330 IPDSLAM Expansion shelf (to Hub Host or Host shelf): Step 1 (run fiber conductors): Expansion EDSE-A card should have SFP modules (see section 2 part N) in port 1,
2, 3 and 4 slots (associated with LT and LP cards 1, 2, 3 and 4 respectively). Each SFP has one set of TX/RX ports
with LC connectors. Run 2 fiber conductors (see BOTC-SEG-0400) from each SFP to the FDF. Total conductor
quantity is 8. Cross connect is to Hub Host or Host downstream fiber (part G).
8. DROP/CO LINE connection and DF block layout/pair count/wiring color code:
A) Cable part numbers: The 7330 ARAM-D shelf has four Low Pass (LP) card slots (see section 3 figure 3B, 3C,
3D). Each LP card has four 25 pair connectors (1 pair is dead on each connector) that are factory designated 1-24
DROP LINES, 25-48 DROP LINES, 1-24 CO LINES, 25-48 CO LINES. To ensure compatibility for all conditions
(physical termination on LP cards, clearance between adjacent connector hoods, ADSL/VDSL signal transport,
grounding of cable to shelf via connector hood, unusual connector pin wiring pattern per figure 8A), BOTC
recommends the following Alcatel (www.alcatel-lucent.com) factory formed 25 pair shielded cables:
DROP LINES (need 8 cables per shelf):
FTTN VDSL application: 3EM18202AX. X denotes length (D is 50’, E is 100’, F is 150’, G is 200’, H is 250’, J is
300’, K is 350’, L is 400’, M is 450’). For example, 3EM18202AG is 200’. Lengths beyond 450’ are not
probable per section 4. Cable in assembly is Madison Cable (www.madisoncable.com) 50LEJLF001 (26 AWG).
OR
IPDSLAM ADSL application: 3EC17675BX. X denotes length (M is 50’, C is 100’, D is 150’, E is 200’, F is 250’, G is
300’, H is 400’, J is 500’, K is 600’, L is 700’). For example, 3EC17675BE is 200’. Cable in assembly is 24 AWG.
CO LINES (need 8 cables per shelf):
FTTN or IPDSLAM applications: 3EC17675BX. Same details as above.
9
BOTC-TEG-1150 B) Installation detail at shelf end: Secure 90 degree cable connectors to LP card with screws (provided with
cable assembly) on both sides. Tighten the screws with equal pressure to ensure that connector seats evenly.
Route cables to left (through 5” wide open area shown in section 3 figure 3A) and then to rear side of rack uprights.
Shielded cable in assembly is automatically grounded to shelf via connector hood.
C) Lead designations and color code at DF end: See table 8A. If cables are field formed, special attention is
required due to the unusual connector pin wiring pattern (as shown in table).
D) DF block layout: Telcordia has established two DF block layout methods for DSLAM related terminations. The
Miscellaneous Equipment (ME) method groups associated OE and CP pairs on separate adjacent DF blocks. The
Transmission Equipment (TRE) method mixes associated OE and CP pairs on the same DF block. Engineering
vendors should consult with Service Provider/Telco personnel about the ME versus TRE issue. Even though 7330
ARAM-D FTTN and IPDSLAM may be new applications, there could be network embedded DSLAM ME or TRE
methods that would set a precedent. Figure 8B, 8C detail the layout for ME and figure 8D, 8E detail the layout for
TRE. See BOTC-SEG-0300 section 2 or 8 for block part numbers.
E) DF block placement : Each 7330 ARAM-D shelf requires four 100 pair blocks. If the DF is conventional, blocks
mount on the horizontal side. Engineering vendors should consult with Service Provider/Telco personnel about
block placement along the DF horizontal side. Depending on the DF vertical side spread of customer outside plant
CPs, some jobs might group all four blocks (LP-1 to 4 OE/CP circuits) together while others may require different
locations for each single block set of LP OE/CP circuits (TRE method) or dual OE/CP block set of LP-1/2, LP-3/4
circuits (ME method). If the method is ME, circuit associated OE and CP blocks should always be placed adjacent to
each other (never separate a dual block set of LP-1/2 or LP-3/4 ME circuits). This will assist CO personnel when
they receive new FTTN or IPDSLAM service orders for three step jumper work (add jumper from 7330 OE block to
CO switch OE block, add jumper from 7330 CP block to vertical side customer CP protector block, remove existing
jumper between CO switch OE block and vertical side customer CP protector block).
Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color
27 T-1-1 W-BL 37 T-1-6 R-BL 47 T-1-11 BK-BL 18 T-1-16 Y-BL 8 T-1-21 V-BL
26 R-1-1 BL-W 36 R-1-6 BL-R 46 R-1-11 BL-BK 17 R-1-16 BL-Y 7 R-1-21 BL-V
29 T-1-2 W-O 39 T-1-7 R-O 49 T-1-12 BK-O 16 T-1-17 Y-O 6 T-1-22 V-O
28 R-1-2 O-W 38 R-1-7 O-R 48 R-1-12 O-BK 15 R-1-17 O-Y 5 R-1-22 O-V
31 T-1-3 W-G 41 T-1-8 R-G 24 T-1-13 BK-G 14 T-1-18 Y-G 4 T-1-23 V-G
30 R-1-3 G-W 40 R-1-8 G-R 23 R-1-13 G-BK 13 R-1-18 G-Y 3 R-1-23 G-V
33 T-1-4 W-BR 43 T-1-9 R-BR 22 T-1-14 BK-BR 12 T-1-19 Y-BR 2 T-1-24 V-BR
32 R-1-4 BR-W 42 R-1-9 BR-R 21 R-1-14 BR-BK 11 R-1-19 BR-Y 1 R-1-24 BR-V
35 T-1-5 W-S 45 T-1-10 R-S 20 T-1-15 BK-S 10 T-1-20 Y-S 25 Spare V-S
34 R-1-5 S-W 44 R-1-10 S-R 19 R-1-15 S-BK 9 R-1-20 S-Y 50 Spare S-V
27 T-1-25 W-BL 37 T-1-30 R-BL 47 T-1-35 BK-BL 18 T-1-40 Y-BL 8 T-1-45 V-BL
26 R-1-25 BL-W 36 R-1-30 BL-R 46 R-1-35 BL-BK 17 R-1-40 BL-Y 7 R-1-45 BL-V
29 T-1-26 W-O 39 T-1-31 R-O 49 T-1-36 BK-O 16 T-1-41 Y-O 6 T-1-46 V-O
28 R-1-26 O-W 38 R-1-31 O-R 48 R-1-36 O-BK 15 R-1-41 O-Y 5 R-1-46 O-V
31 T-1-27 W-G 41 T-1-32 R-G 24 T-1-37 BK-G 14 T-1-42 Y-G 4 T-1-47 V-G
30 R-1-27 G-W 40 R-1-32 G-R 23 R-1-37 G-BK 13 R-1-42 G-Y 3 R-1-47 G-V
33 T-1-28 W-BR 43 T-1-33 R-BR 22 T-1-38 BK-BR 12 T-1-43 Y-BR 2 T-1-48 V-BR
32 R-1-28 BR-W 42 R-1-33 BR-R 21 R-1-38 BR-BK 11 R-1-43 BR-Y 1 R-1-48 BR-V
35 T-1-29 W-S 45 T-1-34 R-S 20 T-1-39 BK-S 10 T-1-44 Y-S 25 Spare V-S
34 R-1-29 S-W 44 R-1-34 S-R 19 R-1-39 S-BK 9 R-1-44 S-Y 50 Spare S-V
Lead designations and color code for 7330 ARAM-D DROP LINE or CO LINE connectors.
Each shelf has two sets of figure 8A (one for DROP LINES and one for CO LINES).
LP-1
car
d 25
-48
conn
ecto
r
FIGURE 8A (continued on page 11)
LP-1
car
d 1-
24 c
onne
ctor
10
BOTC-TEG-1150 Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color Pin Lead Color
27 T-2-1 W-BL 37 T-2-6 R-BL 47 T-2-11 BK-BL 18 T-2-16 Y-BL 8 T-2-21 V-BL
26 R-2-1 BL-W 36 R-2-6 BL-R 46 R-2-11 BL-BK 17 R-2-16 BL-Y 7 R-2-21 BL-V
29 T-2-2 W-O 39 T-2-7 R-O 49 T-2-12 BK-O 16 T-2-17 Y-O 6 T-2-22 V-O
28 R-2-2 O-W 38 R-2-7 O-R 48 R-2-12 O-BK 15 R-2-17 O-Y 5 R-2-22 O-V
31 T-2-3 W-G 41 T-2-8 R-G 24 T-2-13 BK-G 14 T-2-18 Y-G 4 T-2-23 V-G
30 R-2-3 G-W 40 R-2-8 G-R 23 R-2-13 G-BK 13 R-2-18 G-Y 3 R-2-23 G-V
33 T-2-4 W-BR 43 T-2-9 R-BR 22 T-2-14 BK-BR 12 T-2-19 Y-BR 2 T-2-24 V-BR
32 R-2-4 BR-W 42 R-2-9 BR-R 21 R-2-14 BR-BK 11 R-2-19 BR-Y 1 R-2-24 BR-V
35 T-2-5 W-S 45 T-2-10 R-S 20 T-2-15 BK-S 10 T-2-20 Y-S 25 Spare V-S
34 R-2-5 S-W 44 R-2-10 S-R 19 R-2-15 S-BK 9 R-2-20 S-Y 50 Spare S-V
27 T-2-25 W-BL 37 T-2-30 R-BL 47 T-2-35 BK-BL 18 T-2-40 Y-BL 8 T-2-45 V-BL
26 R-2-25 BL-W 36 R-2-30 BL-R 46 R-2-35 BL-BK 17 R-2-40 BL-Y 7 R-2-45 BL-V
29 T-2-26 W-O 39 T-2-31 R-O 49 T-2-36 BK-O 16 T-2-41 Y-O 6 T-2-46 V-O
28 R-2-26 O-W 38 R-2-31 O-R 48 R-2-36 O-BK 15 R-2-41 O-Y 5 R-2-46 O-V
31 T-2-27 W-G 41 T-2-32 R-G 24 T-2-37 BK-G 14 T-2-42 Y-G 4 T-2-47 V-G
30 R-2-27 G-W 40 R-2-32 G-R 23 R-2-37 G-BK 13 R-2-42 G-Y 3 R-2-47 G-V
33 T-2-28 W-BR 43 T-2-33 R-BR 22 T-2-38 BK-BR 12 T-2-43 Y-BR 2 T-2-48 V-BR
32 R-2-28 BR-W 42 R-2-33 BR-R 21 R-2-38 BR-BK 11 R-2-43 BR-Y 1 R-2-48 BR-V
35 T-2-29 W-S 45 T-2-34 R-S 20 T-2-39 BK-S 10 T-2-44 Y-S 25 Spare V-S
34 R-2-29 S-W 44 R-2-34 S-R 19 R-2-39 S-BK 9 R-2-44 S-Y 50 Spare S-V
27 T-3-1 W-BL 37 T-3-6 R-BL 47 T-3-11 BK-BL 18 T-3-16 Y-BL 8 T-3-21 V-BL
26 R-3-1 BL-W 36 R-3-6 BL-R 46 R-3-11 BL-BK 17 R-3-16 BL-Y 7 R-3-21 BL-V
29 T-3-2 W-O 39 T-3-7 R-O 49 T-3-12 BK-O 16 T-3-17 Y-O 6 T-3-22 V-O
28 R-3-2 O-W 38 R-3-7 O-R 48 R-3-12 O-BK 15 R-3-17 O-Y 5 R-3-22 O-V
31 T-3-3 W-G 41 T-3-8 R-G 24 T-3-13 BK-G 14 T-3-18 Y-G 4 T-3-23 V-G
30 R-3-3 G-W 40 R-3-8 G-R 23 R-3-13 G-BK 13 R-3-18 G-Y 3 R-3-23 G-V
33 T-3-4 W-BR 43 T-3-9 R-BR 22 T-3-14 BK-BR 12 T-3-19 Y-BR 2 T-3-24 V-BR
32 R-3-4 BR-W 42 R-3-9 BR-R 21 R-3-14 BR-BK 11 R-3-19 BR-Y 1 R-3-24 BR-V
35 T-3-5 W-S 45 T-3-10 R-S 20 T-3-15 BK-S 10 T-3-20 Y-S 25 Spare V-S
34 R-3-5 S-W 44 R-3-10 S-R 19 R-3-15 S-BK 9 R-3-20 S-Y 50 Spare S-V
27 T-3-25 W-BL 37 T-3-30 R-BL 47 T-3-35 BK-BL 18 T-3-40 Y-BL 8 T-3-45 V-BL
26 R-3-25 BL-W 36 R-3-30 BL-R 46 R-3-35 BL-BK 17 R-3-40 BL-Y 7 R-3-45 BL-V
29 T-3-26 W-O 39 T-3-31 R-O 49 T-3-36 BK-O 16 T-3-41 Y-O 6 T-3-46 V-O
28 R-3-26 O-W 38 R-3-31 O-R 48 R-3-36 O-BK 15 R-3-41 O-Y 5 R-3-46 O-V
31 T-3-27 W-G 41 T-3-32 R-G 24 T-3-37 BK-G 14 T-3-42 Y-G 4 T-3-47 V-G
30 R-3-27 G-W 40 R-3-32 G-R 23 R-3-37 G-BK 13 R-3-42 G-Y 3 R-3-47 G-V
33 T-3-28 W-BR 43 T-3-33 R-BR 22 T-3-38 BK-BR 12 T-3-43 Y-BR 2 T-3-48 V-BR
32 R-3-28 BR-W 42 R-3-33 BR-R 21 R-3-38 BR-BK 11 R-3-43 BR-Y 1 R-3-48 BR-V
35 T-3-29 W-S 45 T-3-34 R-S 20 T-3-39 BK-S 10 T-3-44 Y-S 25 Spare V-S
34 R-3-29 S-W 44 R-3-34 S-R 19 R-3-39 S-BK 9 R-3-44 S-Y 50 Spare S-V
27 T-4-1 W-BL 37 T-4-6 R-BL 47 T-4-11 BK-BL 18 T-4-16 Y-BL 8 T-4-21 V-BL
26 R-4-1 BL-W 36 R-4-6 BL-R 46 R-4-11 BL-BK 17 R-4-16 BL-Y 7 R-4-21 BL-V
29 T-4-2 W-O 39 T-4-7 R-O 49 T-4-12 BK-O 16 T-4-17 Y-O 6 T-4-22 V-O
28 R-4-2 O-W 38 R-4-7 O-R 48 R-4-12 O-BK 15 R-4-17 O-Y 5 R-4-22 O-V
31 T-4-3 W-G 41 T-4-8 R-G 24 T-4-13 BK-G 14 T-4-18 Y-G 4 T-4-23 V-G
30 R-4-3 G-W 40 R-4-8 G-R 23 R-4-13 G-BK 13 R-4-18 G-Y 3 R-4-23 G-V
33 T-4-4 W-BR 43 T-4-9 R-BR 22 T-4-14 BK-BR 12 T-4-19 Y-BR 2 T-4-24 V-BR
32 R-4-4 BR-W 42 R-4-9 BR-R 21 R-4-14 BR-BK 11 R-4-19 BR-Y 1 R-4-24 BR-V
35 T-4-5 W-S 45 T-4-10 R-S 20 T-4-15 BK-S 10 T-4-20 Y-S 25 Spare V-S
34 R-4-5 S-W 44 R-4-10 S-R 19 R-4-15 S-BK 9 R-4-20 S-Y 50 Spare S-V
27 T-4-25 W-BL 37 T-4-30 R-BL 47 T-4-35 BK-BL 18 T-4-40 Y-BL 8 T-4-45 V-BL
26 R-4-25 BL-W 36 R-4-30 BL-R 46 R-4-35 BL-BK 17 R-4-40 BL-Y 7 R-4-45 BL-V
29 T-4-26 W-O 39 T-4-31 R-O 49 T-4-36 BK-O 16 T-4-41 Y-O 6 T-4-46 V-O
28 R-4-26 O-W 38 R-4-31 O-R 48 R-4-36 O-BK 15 R-4-41 O-Y 5 R-4-46 O-V
31 T-4-27 W-G 41 T-4-32 R-G 24 T-4-37 BK-G 14 T-4-42 Y-G 4 T-4-47 V-G
30 R-4-27 G-W 40 R-4-32 G-R 23 R-4-37 G-BK 13 R-4-42 G-Y 3 R-4-47 G-V
33 T-4-28 W-BR 43 T-4-33 R-BR 22 T-4-38 BK-BR 12 T-4-43 Y-BR 2 T-4-48 V-BR
32 R-4-28 BR-W 42 R-4-33 BR-R 21 R-4-38 BR-BK 11 R-4-43 BR-Y 1 R-4-48 BR-V
35 T-4-29 W-S 45 T-4-34 R-S 20 T-4-39 BK-S 10 T-4-44 Y-S 25 Spare V-S
34 R-4-29 S-W 44 R-4-34 S-R 19 R-4-39 S-BK 9 R-4-44 S-Y 50 Spare S-V
Lead designations and color code for 7330 ARAM-D DROP LINE or CO LINE connectors.
Each shelf has two sets of figure 8A (one for DROP LINES and one for CO LINES).
LP-2
car
d 25
-48
conn
ecto
r
FIGURE 8A (continued from page 10)
LP-4
car
d 1-
24 c
onne
ctor
LP-3
car
d 25
-48
conn
ecto
rLP
-4 c
ard
25-4
8 co
nnec
tor
LP-3
car
d 1-
24 c
onne
ctor
LP-2
car
d 1-
24 c
onne
ctor
11
BOTC-TEG-1150
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R 4-48
3-25
4-25
3-25
4-25
4-23
4-24
4-26
4-27
4-28
4-29
4-30
4-31
4-32
4-33
4-34
4-35
4-36
4-37
4-38
4-39
4-40
4-41
4-42
4-43
4-44
4-45
4-46
4-47
LP-4
4-1
4-2
4-3
4-4
4-5
4-6
4-7
4-8
4-9
4-10
4-11
4-12
4-13
4-14
4-15
4-16
4-17
4-18
4-19
4-20
4-21
4-22
3-24
3-26
3-27
3-28
3-29
3-30
3-31
3-32
3-33
3-34
3-35
3-36
3-37
3-38
3-39
3-40
3-41
3-42
3-43
3-44
3-45
3-46
3-47
3-48
3-15
3-16
3-17
3-18
3-19
3-20
3-21
3-22
3-23
4-42
4-43
4-44
4-45
4-46
4-47
4-48
CP
LP-3
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-8
3-9
3-10
3-11
3-12
3-13
3-14
4-33
4-34
4-35
4-36
4-37
4-38
4-39
4-40
4-41
4-16
4-17
4-18
4-19
4-20
4-21
4-22
4-23
4-24
3-42
3-43
3-44
3-45
3-46
3-47
3-48
LP-4
4-1
4-2
4-3
4-4
4-5
4-6
4-7
4-8
4-9
4-10
4-11
4-12
4-13
4-14
4-15
3-17
3-18
3-19
3-20
3-21
3-22
3-23
3-24
3-26
3-27
3-28
3-29
3-30
3-31
3-32
3-33
3-34
3-35
3-36
3-37
3-38
3-39
3-40
3-41
3-8
3-9
3-10
3-11
3-12
3-13
3-14
3-15
3-16
OE
LP-3
3-1
3-2
3-3
3-4
3-5
3-6
3-7
4-26
4-27
4-28
4-29
4-30
4-31
4-32
OE
CP
LP-1
LP-2
FIGURE 8B (Telcordia ME method)
Cosmic block layout for 7330 ARAM-D shelf CO LINE (OE) and DROP LINE (CP) pairs.
Each shelf requires four blocks (OE LP-1/2, CP LP-1/2, OE LP-3/4, CP LP-3/4). Circuit associated
blocks should always be placed adjacent to each other (all four blocks adjacent or two separate
sets of two circuit associated OE/CP blocks). View is from block's front (jumper) side.
2-26
2-1
1-26
1-1
2-9
1-34
1-9
1-31
1-6
2-32
2-7
1-32
1-7
1-33
1-8
2-30
2-5
1-30
1-5
2-27
2-2
1-27
1-2
2-28
2-29
2-4
2-3
1-28
1-3
1-29
1-4
2-38
2-13
1-38
1-13
2-35
2-10
2-33
2-8
2-31
2-6
2-34
1-37
1-12
2-37
2-12
1-35
1-10
2-36
1-36
2-11
1-11
2-41
2-16
1-41
1-16
2-42
2-17
1-42
1-17
2-39
2-14
1-39
1-14
2-40
2-15
1-40
1-15
2-45
2-20
1-45
1-20
2-46
2-21
1-46
1-21
2-43
2-18
1-43
1-18
2-44
2-19
1-44
1-19
2-47
2-22
1-47
1-22
2-48
2-23
1-48
1-23
1-25
1-23
2-24
1-24
2-25
1-25
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
2-10
2-11
2-12
2-13
2-14
2-15
2-16
2-17
2-18
1-35
1-36
1-37
1-38
1-39
2-22
2-23
2-24
2-25
2-26
2-27
2-28
2-29
2-30
2-31
2-32
2-33
2-34
2-35
2-36
2-37
2-38
2-39
2-40
2-41
2-48
2-45
2-46
2-47
2-19
2-20
2-21
1-44
1-45
1-46
1-47
1-48
1-241-2
1-3
1-4
1-5
1-6
1-7
1-8
1-9
1-10
1-11
1-14
1-15
1-16
1-17
1-18
1-19
1-20
1-21
1-22
1-40
1-41
LP-1
LP-2
2-42
2-43
2-44
1-32
1-33
1-34
1-12
1-131-1
1-42
1-43
1-26
1-27
1-28
1-29
1-30
1-31
12
BOTC-TEG-1150
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
4-29
4-33
4-37
4-41
4-45
CPLP-3 LP-4
3-37
3-41
3-45 4-1
4-5
4-9
4-13
4-173-1
3-5
3-9
3-13
3-17
3-21
3-25
4-19
4-23
4-27
4-31
4-35
4-39
4-43
4-47
3-29
3-33
4-14
4-18
4-22
4-26
4-30
3-38
3-42
3-46 4-2
4-6
4-10
4-21
4-25
3-2
3-6
3-10
3-14
3-18
3-22
3-26
3-30
3-34
4-24
4-28
4-32
4-36
4-40
4-44
4-48
3-3
3-7
3-11
3-15
3-19
3-23
3-27
3-31
3-35
3-39
3-43
3-47 4-3
4-7
4-11
4-15
3-40
3-44
3-48 4-4
4-8
4-12
4-16
4-203-4
3-8
3-12
3-16
3-20
3-24
3-28
3-32
3-36
2-21
2-25
2-29
2-33
2-37
2-41
2-45
OELP-3 LP-4
1-37
1-41
1-45 2-1
2-5
2-9
2-13
2-171-1
1-5
1-9
1-13
1-17
2-19
2-23
2-27
2-31
2-35
2-39
2-43
2-47
1-21
1-25
1-29
1-33
2-14
2-18
2-22
2-26
2-30
1-38
1-42
1-46 2-2
2-6
2-101-2
1-6
1-10
1-14
1-18
1-22
1-26
1-30
1-34
2-24
2-28
2-32
2-36
2-40
2-44
2-48
1-3
1-7
1-11
1-15
1-19
1-23
1-27
1-31
1-35
1-39
1-43
1-47 2-3
2-7
2-11
2-15
OE
CPLP-1 LP-2
1-4
1-8
1-12
1-16
1-20
1-24
1-28
1-32
1-36
1-40
1-44
1-48 2-4
2-8
2-12
2-16
2-20
2-33
2-34
FIGURE 8C (Telcordia ME method)
Conventional block layout for 7330 ARAM-D shelf CO LINE (OE) and DROP LINE (CP) pairs.
4-13
4-17
4-21
3-27
3-31
3-35
3-48
4-39
4-43
4-443-8
3-12
3-16
3-20
3-24
3-28
3-32
3-36
4-32
4-36
4-29
4-33
4-22
4-26
4-30
4-23
4-27
4-31
4-35
4-24
4-283-4
4-7
4-11
4-15
4-193-3
3-7
3-11
3-15
3-19
3-23
3-40
3-44 4-4
4-8
4-12
4-16
4-20
4-45
4-34
4-38
4-42
4-46
3-1
3-5
3-9
3-13
3-17
3-21
3-25
3-29
3-33
3-37
3-41
3-45 4-1
4-5
4-9
4-37
4-41
4-25
4-47
3-2
3-6
3-10
3-14
3-18
3-22
3-26
3-30
3-34
3-38
3-42
3-46 4-2
4-6
4-10
4-14
4-18
3-39
3-43
3-47 4-3
2-35
2-36
2-37
2-38
2-39
2-40
4-48
4-40
2-41
2-42
2-43
2-44
2-45
2-46
2-47
2-48
2-34
2-38
2-42
2-46
4-34
4-38
4-42
4-46
2-25
2-26
2-27
2-28
2-29
2-30
2-31
2-32
2-17
2-18
2-19
2-20
2-21
2-22
2-23
2-24
2-9
2-10
2-11
2-12
2-13
2-14
2-15
2-16
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
1-37
1-38
1-29
1-30
1-21
1-22
1-33
1-47
1-48
1-45
1-46
1-39
1-40
1-41
1-43
1-42
1-44
1-7
1-8
1-9
1-13
1-14
1-10
1-11
1-12
1-15
1-16
Each shelf requires four blocks (OE LP-1/2, CP LP-1/2, OE LP-3/4, CP LP-3/4). Circuit
associated blocks should always be placed adjacent to each other (all four blocks
adjacent or two separate sets of two circuit associated OE/CP blocks). View is from
block's front (jumper) side.
LP-1 LP-2
1-1
1-2
1-3
1-4
1-34
1-35
1-36
1-23
1-24
1-25
1-26
1-27
1-28
1-31
1-32
1-17
1-18
1-19
1-20
1-5
1-6
13
BOTC-TEG-1150
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
OE
CP
2-42
2-43
2-44
2-32
2-33
2-34
2-12
2-132-1
2-42
2-43
2-26
2-27
2-28
2-29
2-30
2-31
2-48
2-242-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
2-10
2-11
2-14
2-15
2-16
2-17
2-18
2-19
2-20
2-21
2-22
2-40
2-41
2-46
2-47
2-19
2-20
2-21
2-44
2-45
2-46
2-47
2-22
2-23
2-24
2-25
2-26
2-27
2-28
2-29
2-30
2-31
2-32
2-33
2-34
2-35
2-36
2-37
2-38
2-39
2-40
2-41
2-48
2-45
2-1
2-2
2-3
2-4
2-5
2-6
2-7
2-8
2-9
2-10
2-11
2-12
2-13
2-14
2-15
2-16
2-17
2-18
2-35
2-36
2-37
2-38
2-39
1-47
1-22
1-47
1-22
1-48
1-23
1-48
1-23
2-25
2-23
1-24
1-24
1-25
1-25
1-45
1-20
1-45
1-20
1-46
1-21
1-46
1-21
1-43
1-18
1-43
1-18
1-44
1-19
1-44
1-19
1-41
1-16
1-41
1-16
1-42
1-17
1-42
1-17
1-39
1-14
1-39
1-14
1-40
1-15
1-40
1-15
1-38
1-13
1-38
1-13
1-35
1-10
1-33
1-8
1-31
1-6
1-34
1-37
1-12
1-37
1-12
1-35
1-10
1-36
1-36
1-11
1-11
1-30
1-5
1-27
1-2
1-27
1-2
1-28
1-29
1-4
1-3
1-28
1-3
1-29
1-4
LP-1
LP-2
OE
CP
FIGURE 8D (Telcordia TRE method)
Cosmic block layout for 7330 ARAM-D shelf CO LINE (OE) and DROP LINE (CP) pairs.
Each shelf requires four blocks (OE/CP LP-1, OE/CP LP-2, OE/CP LP-3 and OE/CP LP-4). The blocks
can be placed adjacent to each other or in separate locations along the DF. View is from block's
front (jumper) side.
1-26
1-1
1-26
1-1
1-9
1-34
1-9
1-31
1-6
1-32
1-7
1-32
1-7
1-33
1-8
1-30
1-5
LP-3
OE
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-26
3-27
3-28
3-29
3-30
3-31
3-32
3-8
3-9
3-10
3-11
3-12
3-13
3-14
3-15
3-16
3-17
3-18
3-19
3-20
3-21
3-22
3-23
3-24
3-26
3-27
3-28
3-29
3-30
3-31
3-32
3-33
3-34
3-35
3-36
3-37
3-38
3-39
3-40
3-41
3-42
3-43
3-44
3-45
3-46
3-47
3-48
CP
3-1
3-2
3-3
3-4
3-5
3-6
3-7
3-8
3-9
3-10
3-11
3-12
3-13
3-14
3-15
3-16
3-17
3-18
3-19
3-20
3-21
3-22
3-23
3-24
3-33
3-34
3-35
3-36
3-37
3-38
3-39
3-40
3-41
3-42
3-43
3-44
3-45
3-46
3-47
3-48
LP-4
OE
4-1
4-2
4-3
4-4
4-5
4-6
4-7
4-8
4-9
4-10
4-11
4-12
4-13
4-14
4-45
4-46
4-47
4-48
4-15
4-16
4-17
4-18
4-19
4-20
4-21
4-22
4-23
4-19
4-20
4-21
4-22
4-24
4-26
4-27
4-28
4-29
4-30
4-31
4-32
4-33
4-34
4-35
4-36
4-37
4-38
4-39
4-40
4-41
4-42
4-43
4-44
4-44
4-45
4-46
4-47
CP
4-1
4-2
4-3
4-4
4-5
4-6
4-7
4-8
4-9
4-10
4-11
4-12
4-13
4-14
4-15
4-16
4-17
4-18
4-35
4-36
4-37
4-38
4-39
4-40
4-41
4-42
4-43
4-26
4-27
4-28
4-29
4-30
4-31
4-32
4-33
4-34
4-48
3-25
3-25
4-25
4-25
4-23
4-24
14
BOTC-TEG-1150
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
R
T
3-33
3-37
3-41
3-45
LP-4OE CP
3-37
3-41
3-45 3-1
3-5
3-9
3-13
3-173-1
3-5
3-9
3-13
3-17
3-21
3-25
3-29
3-33
3-14
3-18
3-22
3-26
3-30
3-38
3-42
3-46 3-2
3-6
3-10
3-21
3-25
3-29
3-42
3-46
3-19
3-23
3-27
3-31
3-35
3-39
3-43
3-47
3-2
3-6
3-10
3-14
3-18
3-22
3-26
3-30
3-34
3-24
3-28
3-32
3-36
3-40
3-44
3-48
3-3
3-7
3-11
3-15
3-19
3-23
3-27
3-31
3-35
3-39
3-43
3-47 3-3
3-7
3-11
3-15
3-40
3-44
3-48 3-4
3-8
3-12
3-16
3-203-4
3-8
3-12
3-16
3-20
3-24
3-28
3-32
3-36
2-21
2-25
2-29
2-33
2-37
2-41
2-45
LP-3OE CP
2-37
2-41
2-45 2-1
2-5
2-9
2-13
2-172-1
2-5
2-9
2-13
2-17
2-19
2-23
2-27
2-31
2-35
2-39
2-43
2-47
2-21
2-25
2-29
2-33
2-14
2-18
2-22
2-26
2-30
2-38
2-42
2-46 2-2
2-6
2-102-2
2-6
2-10
2-14
2-18
2-22
2-26
2-30
2-34
2-24
2-28
2-32
2-36
2-40
2-44
2-48
2-3
2-7
2-11
2-15
2-19
2-23
2-27
2-31
2-35
2-39
2-43
2-47 2-3
2-7
2-11
2-15
Each shelf requires four blocks (OE/CP LP-1, OE/CP LP-2, OE/CP LP-3 and OE/CP LP-4). The
blocks can be placed adjacent to each other or in separate locations along the DF. View
is from block's front (jumper) side.
LP-1
LP-2OE CP
2-4
2-8
2-12
2-16
2-20
2-24
2-28
2-32
2-36
2-40
2-44
2-48 2-4
2-8
2-12
2-16
2-20
FIGURE 8E (Telcordia TRE method)
Conventional block layout for 7330 ARAM-D shelf CO LINE (OE) and DROP LINE (CP) pairs.
4-13
4-17
4-21
4-27
4-31
4-35
4-48
4-39
4-43
4-444-8
4-12
4-16
4-20
4-24
4-28
4-32
4-36
4-32
4-36
4-29
4-33
4-22
4-26
4-30
4-23
4-27
4-31
4-35
4-24
4-284-4
4-7
4-11
4-15
4-194-3
4-7
4-11
4-15
4-19
4-23
4-40
4-44 4-4
4-8
4-12
4-16
4-20
4-45
4-34
4-38
4-42
4-46
4-1
4-5
4-9
4-13
4-17
4-21
4-25
4-29
4-33
4-37
4-41
4-45 4-1
4-5
4-9
4-37
4-41
4-25
4-47
4-2
4-6
4-10
4-14
4-18
4-22
4-26
4-30
4-34
4-38
4-42
4-46 4-2
4-6
4-10
4-14
4-18
4-39
4-43
4-47 4-3
1-33
1-34
1-35
1-36
1-37
1-38
1-39
1-40
4-48
4-40
1-41
1-42
1-43
1-44
1-45
1-46
1-47
1-48
2-34
2-38
2-42
2-46
3-34
3-38
1-25
1-26
1-27
1-28
1-29
1-30
1-31
1-32
1-17
1-18
1-19
1-20
1-21
1-22
1-23
1-24
1-9
1-10
1-11
1-12
1-13
1-14
1-15
1-16
1-1
1-2
1-3
1-4
1-5
1-6
1-7
1-8
1-37
1-38
1-29
1-30
1-21
1-22
1-33
1-47
1-48
1-45
1-46
1-39
1-40
1-41
1-43
1-42
1-441-8
1-9
1-13
1-14
1-10
1-11
1-12
1-15
1-16
OE CP
1-1
1-2
1-3
1-4
1-34
1-35
1-36
1-23
1-24
1-25
1-26
1-27
1-28
1-31
1-32
1-17
1-18
1-19
1-20
1-5
1-6
1-7
15