NEC of America 5828 NEC NLite L 28 X DS1 5.8 GHz Digital Microwave Radio User Manual Part 3

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Document ID	1077668
Application ID	ZtEfiyqLMDyQMA2GO76q8Q==
Document Description	User Manual Part 3
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
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Filesize	250.54kB (3131773 bits)
Date Submitted	2009-03-06 00:00:00
Date Available	2009-03-06 00:00:00
Creation Date	2008-11-05 14:46:12
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Document Lastmod	2008-11-05 14:53:41
Document Title	User Manual Part 3
Document Creator	ScanPDFMaker 1.0

ROI-806300
SUBSYSTEM DESCRIPTION
TabIe 3-3 TRP Composition (elw FAN Type)
Equipment
Name
TRP—LfiG-I 01A
Unit Name
H2497A
H2497B
HZ497C
HZ49’7D
HZ497J
H2497K
H2497L
H2497M
TR UNIT
TX Power Fm Domain DC Power
High
High
STD
STD
High
1-| igh
STD
HZ326B
I/O BOARD
Unlt Name
BAND WIDTH
System
H2503A
1125038
HZSOSC
“25030
NWAVOZISSOIIOI
NWA-OZ I 550-002
N WA-(IZ [5504103
NWA-OZI 5504704
BR CKT
H0
HI, HS/HS (3 dB HYB)
I+l,HS/HS(10dB CPL)
1+].IIS/SD
H0 with EXP Pun
|+L HS/IIS (3 dB HVB) with EXP Pon
|+I , HS/HS (IOdB CPL) wilh EXP Pen
HI‘ PIS/SD with EXP Pan
3-13
SUBSYSTEM DESCRIPTION
TRP-UGG- 10 I A
3-14
ROI-506300
Table 3-3 TRP Composition (elw FAN Type)
unit Name
NWA-O 1 7234-00]
NWA4) I 72344702
NWA—DI 7234003
NWA-OI 7234-004
N WA-O 1 7234-005
NWA-017234-006
N WA-O I 72344307
NWA-(II 72344108
CANADA
NWA-O 1 7234-011
N WA-fil 723441] 2
NWA-OI7234-013
NWA-OI 72344114
NWA-fll7234-OI 5
NWA-0172347016
NWAVOI 7234-0] 7
NWA-OI 7234-0] 8
TR UNIT
CANADA
H2326B
"0
BOARD
Unit Name
NWA-OZBBBLDOI
NWA—OZSSE I 4102
NWA-OZJBXI-(NIJ
NWA-OZJBS 1-004
HI, HS/HS (3 dB HYB)
1+], HS/HS (IO dB CPL)
I+I\ HS/SD
NWA»02 I 789—001
NWAv021789-002
NWA-OZ I 789-003
NWA-DZ] 7894104
I+D wilh EXP For!
1+], HS/HS (3 dB HYB) with EXP Pen
1+], HS/HS (IO dB CPL) with EXP Port
I-H, HS/SD willl EXP For!
ROI-506300 SUBSYSTEM DESCRIPTION
Table 3-3 TRP Composition (elw FAN Type)
Unlt Name Freq Domain
NWA~0| 7240-00 I
NWA-017240-002
TR UNIT
NWA-017240-003
NWA-Ol 72404104
1/0
H2326B BOARD
TRP-IOG-IOIA
Unlt Name
NWA-02388 I-Ofll
NWA-02388I—OOZ 1+], HS/HS (3 dB HYB)
NWAvOZSXSI-Dflfi! l+I,HS/HS(IOdB CPL)
NWA-023881-lKM I+l, HS/SD
3-15
SUBSYSTEM DESCR|PTION ROI-806300
Table 3-3 TRP Composition (alw FAN Type)
UnItName TX Power Freq Dom n
NWA-Ol7243»00|
NWA»l)l7243-002
TR UNIT
NWA~017243~003
NWA—0I7243-004
I/O
HZ3ZGB BOARD
Unit Name
NWAJJI 7543470]
NWA-017543~0()Z ML HS/HS (3 dB HYB)
Wide
(sub band)
TRP-llG-IOIA NWA~0|7543~003 I+|,HS/HS(I0dB CPL)
NWA70l7543~004 I+L HS/SD
NWA-018299~OUI 14-0
NWA7018299-002 HI, HS/HS (3 dB HYB)
NWA»0182997003 1+], HS/HS (10 dB CPL)
NWA-0I8299~004 1+], HS/SD
NWA-020897—001 H0 wuh EXP Pon
NWA-020897»002 HI, HS/HS (3 dB HYB) with EXP Port
NWA4720897-003 1+], HS/HS (10 dB CPL) wilh EXP Port
NWA-OZOB97-004 1+], HS/SD Wilh EXP Pun
3-1 6
Relsossoo SUBSYSTEM DESCRIPTION
r: I]
I:
DC-DC
CONV) rr
==J
(PS)
NEC SYNTH)
nus saw,—
‘u. we
' ME M “PM _._u
View A—A 53
. a]
i 3
(BOOSTER
AMP)
319mm (RF cm
mm mm
- “mam" (CONT)
' 0 b
um sun nun n-o
urn/man Q
View B-B
INSIDE OF THE TRP
Fig. 3~5 TRP Component Module Arrangement (wlo FAN Type)
3-17
SUBSYSTEM DESCRIPTION
3-18
Equipment
Name
TRP-UGG-SAA
Tab|e 3-3 TRP Composition (w/o FAN 1ype)
Unit Name
H 1007A
Freq Domaln
HIOO7B
TR UNIT
mcnm
01
H IOO7C
1‘11007D
muow>
ROI-806300
1423268
”0
BOARD
Unit Name
HIOOQA
H [0095
H [009C
HIOOQD
l+|, HS/HS (3 dB HYB)
HI, HS/HS(IOdB CPL)
HI‘HS/SD
ROI-506300
Equlpment
Name
TRP-11G-3AA
SUBSYSTEM DESCRIPTION
Table 3-3 TRP Composition (wlo FAN Type)
unit Name
H | MIA
Freq omaln
IIIOOZB
HIOOZC
HIOOZD
TR UNIT
H|002E
HIOOZF
H 10020
HIOOZH
"0
1423263 BOARD
Unit Name
HIMSA
HIQOSB
H IODSC
HIDOfiD
1+L HS/HS (3 dB HYB)
HI, HS/HS (IOdB CPL)
1+LHS/SD
3-19
SUBSYSTEM DESCRIPTION ROI—506300
Z(IF CKT)
1 (RF CKT)
5/24 GHz
View B
ps PS
INSIDE OF TRF' |N$|DE OF TRP
58/6 GHz TRP (N-Type Feeder Inler'aoe] 6/24 GHz TRP (WIG»Type Feeder Interface)
0 o
SYNTH
o o
o - o
0 0 o o
INSQDE OF ODU
10 5/11 GHz TRP (W/G~Type Feeder Inteflaoe)
Nate: Do not open the cover of the TRP umallyv The Silica Gel Pack must be replaced and
the air leakage test operation must be performed using the air leakage texter (NEC
made, mid separately) when the cover is opened once.
Fig. 3-6 TRP Component Unit Arrangement (Split Type)
3-20
ROI-806300 SUBSYSTEM DESCRIPTION
3.4 Functional Operation
The block diagram ofthe TRP is shown in Fig. 3-7. Functional operations
of the TRP are described separately for the transmitter section and receiver
section.
3.4.1 Transmitter Section
The alarm/control signal and DC component which compose the lF signal
are applied from the MDP to the lFL jack. They are separated through the
multiplexer (MPX) circuit in the RF CKT. The separated alarm/control
signals are applied to the CONT module. The DC component is applied to
the DC»DC CONV and regulated DC voltages are generated to be used in
the TRP. The IF signal (340 MHz) is convened into the RF signal by
mixing with a local signal generated at the SYNTH module. The RF
signal is amplified and controlled by the ALC and ATPC function.
Undesired components caused through the lF»RF conversion are
eliminated through BPF, then, the RF signal is sent to the antenna through
branching circuit.
Either TX power output of No.1 or No.2 is switched through the RF SW
(all indoor type) or mute control in the Hot Standby system.
3.4.2 Receiver Section
The RF signal received from the antenna is fed to the RF CKT through the
branching circuit. In the RF CKT, the RF signal is amplified to the
required level by the RF amplifier and converted into the 140 MHz IF
signal by mixing with a local signal generated by the SYNTH module. The
140 MHz [F signal is AGC controlled and fed to the MDP through the
MPX circuit which combines the alarm/control signal.
3-21
SUBSYSTEM DESCRIPTION Relsossoo
Anlenna
TR uNmNon m umrmoz)
| M
(Na 1 MDUNIY' IlNaZMDUNIT
IF Mom; | | ‘r woun
Nam: - m UNIT 15 mounled on [he HVB or connected no the NVB "rough may,
(5) TR? var NSIHS Syslem
MAW so Waveeuae/cnachaue
Amen". Anlenna
TR UNIT ma 1) TR uNn mo 2)
1Na 1 MD umr.
u: woun | 1m 2 MD UNIV
IF INIOUTi
(b) mp fix ns/su syslem
Fig. 3-7 TRP, Block Diagram (112)
3-22
R0|$06300 SUBSYSTEM DESCRIPTION
Annlena
Wave Guide/Coaxial caus
(MD umr
IF Mom)
I. . _
(6) mp lol he Sysmm
TR UNIY
(MD UNIT
IF m/oufl
(d) THPlor no System
Fig. 3-7 TRP, Block Diagram (212)
3-23
SUBSYSTEM DESCRIPTION ROI-806300
Duplexer
Fig. 3-8 System Connection through the Narow Band BR CKT
3-24
24 pages
APPENDIX
FCC STATEMENT INFORMATION H
1-1
ROI-506301 4153E
March, 2008
CONTENTS
5.8/L6/UGI10.5/11124 GHz15/28/50 MB
PDH DIGITAL MICROWAVE RADIO SYSTEM
NLiIe L
(PDH 1+Ol1+1 SYSTEM)
SECTION II OPERATION
CONTENTS
TITLE PAGE
1, GENERAL mu...........m................................um.“ 1.1
2. INTERFACE TERMINALS AND JACKS “mm-mu 2-1
3. CONTROLS, INDICATORS AND TEST JACKS-n 3-1
3.1 MDP mm... m 3.1
31 TRP “mu... m 3-6
4. EQUIPMENT START-UP AND SHUT-DOWN-n-m 4-1
4.1 Stan-up-m- 4-1
4.2 Shut-down -
5. SE'I'I'ING, CONTROL
WITH LCT-- 5-1
5.1 General .....
5.2 LOT Menu Items
53 LCT Connection-m
5.4 LCT System Configuration Setting
5.5 Provisloning Setting-«mm»- 5-16
5.6 Relay/House Keeping Setting
C L-1
CONTENTS ROI-806301
(This page is intenlionally Iefl blank.)
CL-2
2 pages
Rot-806301
GENERAL
1. GENERAL
This section provides operating instructions for the 5.8/L6/U6/lO.5/11/24
GHz 15/28/50 MB NLite L digital microwave radio system.
This part describes the interface terminals and jacks, controls, indicators.
lest jacks, equipment start-up, and equipment shut—down. Use of the LCT
is required for local operation, control, monitoring and setup.
This manual is described for the firmware version of as follows,
SW UNIT: 2.4.4
MD UNIT: l.30
GENERAL ROI-506301
(This page is inlemionally 1811 blank.)
2 pages
ROI—506301
INTERFACE TERMINALS AND JACKS
2. INTERFACE TERMINALS AND
JACKS
The MD? has interface terminals and jacks to inlerconnect data signals,
alarm, IF signals and line power with the associated equipment. These
interface terminals and jacks are located on from of the equipment as
shown in Fig. 2~1 and Fig. 2-2, The delails of terminals and jacks for
signal interface are described in Table 2-1.
Note: Use shielded cab/ex which are connected to the D-Sub/RJ-45
connecmr to suppress interflrcncefrom affecting [he signal and
m reduce electromagnetic radialian which may interfere with
other signal Cab/ex.
Note: Twix/ power cables (+)/(f) Ia xuppress induclive interference
signals,
INTERFACE TERMINALS AND JACKS ROI$06301
so LAN INIOUT(OpIionaI) CLUSTER
N01 CH pNMT 50w1 TRAFFIC INIOUT ALWAUX'WF’W“ TRP) No.1 CH
IFlN/OUT LCT EOWZ sc INIOUT / YRAFFIC lN/OUT’ SELV
M / —=1'L WW,
“g 5 / / @ '
, , T V 41 (Q;
4. mi mam ' ‘ " “$5135,
(+3 DEED ,,,,, : = = "$3339 0
g, DOC-“U " o 3E'S”o’1
mu— m m
._ wry?” 9 O
y ,
T LTLLL [EA
No.2 CH G NE1 NEZ v11 LAN ALM/Aux our (Ofilional) ”02 CH
IF IN/OUT RF sw CTRL PNMS TRAF IC INIOUT SELV
MDP~I5MB5T—lA/MDP-28MB7T-1A - Nol provided for a x D81
For 8/16 x DSI System
so LAN IN/OUT(0pnonaI) CLUSTER
NM CH PNMT Eow1 TRAFF|C|N10UT ALM/Aux IN (From TRP) No.1CH
n: wow ILCT/ 50m SCIN/OUT lALMI/AUX oUT/ TRAFFIC m/our' sva
.v L mm El
IT; IE?” W. “V ‘D
‘ .
e: . M4gfig 1_
“(51 ‘ ' —- o
No.2 CH 1 NE1 NEZ v11 LAN CH17|0 CH24 \ (Ofilicnal) $55”
lF lN/OUT RF sw GTRL PNMS <2st (0 cuzs/ws INIOUT
' Not provided for 8 X D81
MDP»50MB6T—2C
For 28 X D81 System
Fig 2-1 MDP, Interface Terminals and Jacks (1/6)
2-2
ROI-806301 INTERFACE TERMINALS AND JACKS
CLUSTER
ALMIAUX IN (From TRP)
No.1 CH me1' sow1 TRAFFIC No,1 CH
n: INIOUT LCT sowz so INIOUT "“ OUT WS INIOUT SELV
(oplional)
No.2 CH FG \ v11 LAN No.2 CH
IF IN [OUT NE1 RF sw CTRL NE2 \—/PNMS ALM/AUX OUT SEL v
MDP-SOMBfiT-IA
For 1 x D83 System
sow1 so LAN lNIOUT(OpIionaI) (opliw)
PNMT TRAFFIC INIOUT , No.1 CH
n: INIOUT LCT . UT.
\r L / lsowz/ RF 7ww CTRL TRAFFIC WOUT: TRAFFIC IN/O SELV
o \' M ,' Mmfim'ajr
>G NE1 NEE V11 LAN ALM/AUX OUT
PNMS $C\ IN/OUT CLUST\ER ALMIAUX IN (From TRP)
" Not provided for B X US!
MDP-lSMBST-IB
For 8/16 X D81 System
Fig. 2-1 MDP, Interface Termlnals and Jacks (2/6)
2-3
INTERFACE TERMINALS AND JACKS ROI-806301
éfimfidmom TRAFFIC INIOUT
CH” k, CH24 cuzs lo CHZBIWS
”HMO“ EOVgowz W’OUT IN/OUT TRAFFIC lN/OUT’ 2286”
/// FS,W°T / (Optional)
0 m w.
mb‘uz/ man 2. a /|fi 9 j
fl u, m
@ “$8.3 @
mum Thummm h- 8 8.9” 3553; ,- o
L; NE1NE2 v1 LAN ALM/AUX our
PNMS sc IN/OUT CLUSTER ALM/Aux IN (From TRP)
MDP—soMBsT-ZB
For 28 x DS1 System
sow1 RF s/w CTRL vzg WOT
lFlN/OUT PNMT TRAFFIC IN piona No.1 CH
ILCT 50W? TRAFFIC OUT / sew
m/ g 7: 7391"
_WW “6, neg-m -
O w. W mswwfi
“S???“o‘.
sew/mu “WW. “mum/«WA .. W,
\ X _ I X 1 CI 9, 53.9” 0663? D
FG NE1NE2 v11 LAN \ \
W ALM/AUX OUT
sc IN/OUT CLUSTER ALMIAUX IN (From TRP)
MDP-SOMBfiTJB
For 1 X 083 System
Fig. 2-1 MDP, Interface Terminals and Jacks (3/6)
2-4
ROI—506301
INTERFACE TERMINALS AND JACKS
2. INTERFACE TERMINALS AND
JACKS
The MD? has interface terminals and jacks to inlerconnect data signals,
alarm, IF signals and line power with the associated equipment. These
interface terminals and jacks are located on from of the equipment as
shown in Fig. 2~1 and Fig. 2-2, The delails of terminals and jacks for
signal interface are described in Table 2-1.
Note: Use shielded cab/ex which are connected to the D-Sub/RJ-45
connecmr to suppress interflrcncefrom affecting [he signal and
m reduce electromagnetic radialian which may interfere with
other signal Cab/ex.
Note: Twix/ power cables (+)/(f) Ia xuppress induclive interference
signals,
INTERFACE TERMINALS AND JACKS ROI$06301
so LAN INIOUT(OpIionaI) CLUSTER
N01 CH pNMT 50w1 TRAFFIC INIOUT ALWAUX'WF’W“ TRP) No.1 CH
IFlN/OUT LCT EOWZ sc INIOUT / YRAFFIC lN/OUT’ SELV
M / —=1'L WW,
“g 5 / / @ '
, , T V 41 (Q;
4. mi mam ' ‘ " “$5135,
(+3 DEED ,,,,, : = = "$3339 0
g, DOC-“U " o 3E'S”o’1
mu— m m
._ wry?” 9 O
y ,
T LTLLL [EA
No.2 CH G NE1 NEZ v11 LAN ALM/Aux our (Ofilional) ”02 CH
IF IN/OUT RF sw CTRL PNMS TRAF IC INIOUT SELV
MDP~I5MB5T—lA/MDP-28MB7T-1A - Nol provided for a x D81
For 8/16 x DSI System
so LAN IN/OUT(0pnonaI) CLUSTER
NM CH PNMT Eow1 TRAFF|C|N10UT ALM/Aux IN (From TRP) No.1CH
n: wow ILCT/ 50m SCIN/OUT lALMI/AUX oUT/ TRAFFIC m/our' sva
.v L mm El
IT; IE?” W. “V ‘D
‘ .
e: . M4gfig 1_
“(51 ‘ ' —- o
No.2 CH 1 NE1 NEZ v11 LAN CH17|0 CH24 \ (Ofilicnal) $55”
lF lN/OUT RF sw GTRL PNMS <2st (0 cuzs/ws INIOUT
' Not provided for 8 X D81
MDP»50MB6T—2C
For 28 X D81 System
Fig 2-1 MDP, Interface Terminals and Jacks (1/6)
2-2
ROI-806301 INTERFACE TERMINALS AND JACKS
CLUSTER
ALMIAUX IN (From TRP)
No.1 CH me1' sow1 TRAFFIC No,1 CH
n: INIOUT LCT sowz so INIOUT "“ OUT WS INIOUT SELV
(oplional)
No.2 CH FG \ v11 LAN No.2 CH
IF IN [OUT NE1 RF sw CTRL NE2 \—/PNMS ALM/AUX OUT SEL v
MDP-SOMBfiT-IA
For 1 x D83 System
sow1 so LAN lNIOUT(OpIionaI) (opliw)
PNMT TRAFFIC INIOUT , No.1 CH
n: INIOUT LCT . UT.
\r L / lsowz/ RF 7ww CTRL TRAFFIC WOUT: TRAFFIC IN/O SELV
o \' M ,' Mmfim'ajr
>G NE1 NEE V11 LAN ALM/AUX OUT
PNMS $C\ IN/OUT CLUST\ER ALMIAUX IN (From TRP)
" Not provided for B X US!
MDP-lSMBST-IB
For 8/16 X D81 System
Fig. 2-1 MDP, Interface Termlnals and Jacks (2/6)
2-3
INTERFACE TERMINALS AND JACKS ROI$06301
LAN IN/OUT CLUSTER
TRAFF“; ALM/AUX IN (From TRP) N04 cH
1" OUT ws IN/OUT
SCINIOUT / \ (Omman sew
No.1 CH
IF INIOUT
O m w
J'@
N“? 0” FG \ : v11 LAN
IF lN/OUT NE 1” SW CTRL NEZ ‘—’PNMS ALM/AUX our
MDP»50MB6T-1C
For 1 x D83 e/w LAN System System
50w1 LAN INIOUT (Oplipnal)
PNMT TRAFFIC lN/OUT 4 NM CH
IF IN/OUT LOT ' TRAFFIC m/ T"
\ / / / /EOWZ |TRAFFIC INIOUT,‘ 0” SELV
o .
u . , ' , . . . my?
fl
WW.”
0 000'
“km—1mm mm W o “m;
o 0 cm 0
ALMIAUX OUT \
F‘NMS SCIN/OUT CLUSTER ALMIAUX IN (From TRP)
'Nl ' d! 5 DS1
MDP~1SMB5T—lD/MDP»28MB7T-ID ”W“ °' x
For 8/16 x 081 e/w LAN System System
Fig 2-1 MDP, Interface Terminals and Jacks (516)
2-6
ROI-806301 INTERFACE TERMINALS AND JACKS
“WWW TRAZZ'ES'T’iflZWS
CHfl‘mgS? [N’OUT TRAFFICINIOUT NMCH
/(0pli9nal) SEL v
I / I 4. m M
mum Méuél ffméf ' [gig
[Emfiifif-T (D
MM bvmwmxm hm ° 9.33“
O 00 M,
wn m m C)
fl 55
$6 NE1 NEZ V11 LAN ALMIAUX OUT
PNMS SC INIOUT CLUSTER ALMIAUX IN (From TRP)
MDP~SOMB6T>2D
For 28 x DS1 System e/w LAN System
LAN lN/OUT ws INIOUT
u: INIOUT F‘NMTL CEOW1 TRAFF|C IN (Omiunal) No.1 CH
TRN= 10 OUT
' M _ nan-um-
\—--—, E m 0 0 0 Soon,
\FG NE1NE2 V11LAN \ \
‘m’ ALM/AUX OUT
so lN/OUT CLUSTER ALMIAUX m (From TRP)
MDP-SOMBGT— 10
For 1 x D33 e/w LAN System System
Fig 2-1 MDP, Interface Terminals and Jacks 16/6)
2-1
INTERFACE TERMINALS AND JACKS ROI-506301
SD RX ' TX/RX
RF sw CTRL
DO IN (No.1) IFL (No.2) DC m (No.2)
CLUSTER ALM/AUX |N go MDP)
CLU TER ALWAUX IN (User Inlerlaca)
Nntes: 1. The TX/RXport orientation can he changed (see Sectian 111).
2‘ SD RX Waveguide Frange is not provided in HS/HS system.
TRP-L6/U6l10l11/246»( ) All Indoor. 2 x TRF' elw FAN Type
Fig. 2-2 TRP, Interface Terminals and Jacks (1/5)
IFL(
2-8
ROI-506301 INTERFACE TERMINALS AND JACKS
SYS 1 SYS 2
SD RX ' MAIN Tx/Rx so Rx ~ MAIN TX/Rx
FM?“ ram 1 u D
IFL(N01) RF SW CTRL DC ‘N (NM) RF sw CTRL IFL (N02)
DC 'N (NM) 'F'- (”E”) CLUSTER ALM/AUX IN
CLUSTER ALMIAUX IN IFL (No‘ 0 DC W (NM, (To MDP)
(To MDP)
CLUSTER ALM/AUX
CLUSTER ALM/AUX IN (User lymtertacela')1
(User Interface)
DC IN (No.2)
News: 1, so RX Waveguide Flange ix mil pmvldud in HS/HS system
2. Thn Tx/Rxnmz nrientation can be changed (see Section 111).
TRP-L6/U6/10/11IZ4G—( )All Indoor, 4 x TRP elw FAN Type
Fig. 2-2 TRP. Interface Terminals and Jacks (2/5)
2-9
INTERFACE TERMINALS AND JACKS ROI-506301
SEL V
SEL V
FG
IF INIOUT
FG
IF INIOUT
SEL V
FG
IF INIOUT
‘SD RX
(Only for Space
Diversny System)
View A
Nale: Positian nflhc TX/RXpor/ varies depending on the waveguide orienmlian.
Fig. 2-2 TRP, Interface Terminal and Jacks (315)
2-10
Rm-sossm INTERFACE TERMINALS AND JACKS
(FG)
IF INIOUT
(N4ype Interface)
(REAR mew;
RF IN/OUT RF w/ou'r
[Anlenna Mounting Type Interface) {REAR VI EW)
(REAR VIEW)
58/6/23 GHZ BAND TRP
Fig. 2-3 TRP, Interface Terminal and Jacks (415)
2-1 1
INTERFACE TERMINALS AND JACKS Ropsosam
IF INIOUT RX REV MON RF INIOUT
(FRONT quw) (REAR VIEW)
10.5/11 GHZ BAND TRP
Fig. 2-6 TRP, Interface Terminal and Jacks (515)
2-1 2
ROI606301 INTERFACE TERMINALS AND JACKS
Table 2-1 Interfaca Terminals and Jacks on the MDP (1/13)
TRAFFIC IN/OUT CHI-8 DSl data input/oulput from/to DTE
(1.5M INTFC) (CHI to CHS)
(D~sub Connector, 37 Pins)
Pins 1 (+) and 2 (—) CH8 data input
Pins 3 (+) and 4 (7) CH7 data input
Pins 6 (+) and 7 (~) CH6 data input
Pins 8 (+) and 9 (4) CH5 data input
Pins 11 (+) and 12 (—) CH4 data input
Pins 13 (+) and 14 (—) CH3 data input
Pins 16 (+) and 17 (—) CHZ data input
Pins 18 (+) and 19 (—) CH] data input
Pins 20 (+) and 21 (—) CHR data oulpul
Pins 22 (+) and 23 (-) CH7 data output
Pins 25 (+) and 26 (—) CH6 data output
Pins 27 (+) and 28 (—) CH5 data output
Pins 29 (+) and 30 (—) CH4 data output
Pins 31 (+) and 32 (7) CH3 data output
Pins 34 (+) and 35 (—) CH2 data output
Pins 36 (+) and 37 (—) CHI data output
Pins 5,10,15,24 and 33 Ground
2-1 3
INTERFACE TERMINALS AND JACKS 1201506301
Table 2-1 Interface Terminals and Jacks on the MDP (2/13)
Terminal Descrip ‘on
TRAFFIC IN/OUT CH9-16 DSl data input/output from/to DTE
(1.5M1NTFC) (CH 9 to CH 16) (for 16 x 1.5 MB system only)
(D-sub Connector, 37 Pins)
Pins 1 (+) and 2 (7) CHIG data input
Pins 3 (+) and 4 (7) CHIS data input
Pins 6 (+) and 7 (7) CH14 data input
Pins 8 (+) and 9 (—) CH 13 data input
Pins 11 (+) and 12 (v) CH12 data input
Pins 13 (+) and 14 (7) CH“ data input
Pins 16 (+) and 17 (—) CHIO data input
Pins 18 (+) and 19 (—) CH9 data input
Pins 20 (+) and 21 (—) CHM data output
Pins 22 (+) and 23 (—) CHIS data output
Pins 25 (+) and 26 (—) CHM data autput
Pins 27 (+) and 28 (—) CHI} data output
Pins 29 (+) and 30 (—) CH12 data output
Pins 31 (+) and 32 (—) CH 11 data output
Pins 34 (+) and 3S (7) CHIO data output
Pins 36 (+) and 37 (7) CH9 data output
Pins 5,10,15,24 and 33 Ground
2-1 4
ROI-506301 INTERFACE TERMINALS AND JACKS
Table 2-1 Interface Terminals and Jacks on the MDP (3/13)
Descrip 'on
CH17-CH24 DSl data input/output from/to DTE
(LSM INTFC) (CH17 to CH24) (for 28 x 1.5 MB system only)
(D-sub Connector, 37 Pins)
Pins 1 (+) and 2 (7) CH24 data input
Pins 3 (+) and 4 (~) CH23 data input
Pins 6 (+) and 7 (—) CH22 data input
Pins 8 (+) and 9 (—) CHZI data input
Pins 11 (+) and 12 (—) CHZO data input
Pins 13 (+) and 14 (—) CH19 data input
Pins 16 (+) and 17 (—) CHIS data input
Pins 18 (+) and 19 (—) CHI7 data input
Pins 20 (+) and 21 (7) CH24 data output
Pins 22 (+) and 23 (—) CH23 data output
Pins 25 (+) and 26 (—) CH22 data output
Pins 27 (+) and 28 (—) CH21 data output
Pins 29 (+) and 30 (—) CH20 data output
Pins 31 (+) and 32 (7) CH19 data output
Pins 34 (+) and 35 (7) CH18 data output
Pins 36 (+) and 37 (~) CHI7 data output
Pins 5,10,15,24 and 33 Ground
2-15
INTERFACE TERMINALS AND JACKS
ROI—506301
Table 2-1 Interface Terminals and Jacks on the MDP (4/13)
CH25-CH28
(1.5M SUB INTFC)
(D-sub Connector, 25 Pins)
Pin 1
Pins 2 (+) and 3 (—)
Pins 5 (+) and 6 (—)
Pins 7 (+) and s (7)
Pins 10 (+) and II E)
Pins 12 (+) and 13 (-)
Pin 1 4
Pins 15 (+) and 16 (—)
Pins 18 (+) and 19 (—)
Pins 20 (+) and 21 (—)
Pins 22 (+) and 23 (~)
Pins 24 (+) and 25 (-)
Pins 4, 9, 25 and I7
TRAFFIC IN/OUT AMI/BXZS
(CODE CONV INTFC)
(D-sub Connector, 25 Pins)
Pins 1 (+) and 2 (—)
Pins 4 (+) and 5 (m)
Pins 7 (+) and 8 (—)
Pins 10 (+) and 11k)
Pins 14 (+) and 15 (—)
Pins 17 (+) and 18 (—)
Pins 20 (+) and 21 (7)
Pins 23 (+) and 24 (—)
Pin 13
Pins 3, 6, 9, I2, 16, 19, 22 and 25
2-1 6
DSl data and WS input/output from/to DTE
(CH25 to CHZR) (for 28 x 1,5 MB system only)
No connected
WS data inpul
CH28 data input
CH27 data input
CH26 data input
CH25 data input
No connected
WS data output
CHZX data output
CH27 data output
CH26 data output
CHZS data output
Ground
DSI data input/output from/to DTE, from/to 1.5M INTFC (for
ZCHS AMI/BSZS input/output ) (optional)
CH2 data input from 1.5 M INTFC
CH1 data input from 1.5 M INTFC
CH2 data input
CHI data input
CH2 data output to 1.5 M INTFC
CHI data output to 1,5 M INTFC
CH2 data output
CHI data output
No connected
Ground
ROI-506301
Table 2-1 lnteriace Terminals and Jacks on the MDP (5/13)
Terminal Descr' tlon
LAN PORT], 2 (Optional)
(RJ45, 8 Pins)
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
Pin 7
Pin 8
CLUSTER ALM/AUX IN
Pins 2 (+) and 15 (—)
Pins 5 (+) and 18 (—)
Pins 6, 19 (G)
Pins 8 (+), 21 (Ground)
N,C
N.C
RXD—fl‘XD-
INTERFACE TERMINALS AND JACKS
LAN input/output
TXD+/RXD+
TXDf/RXD~
RXDHTXD+
N.C
N.C
Alarm and transmission network surveillance auxiliary input/
(D-sub Connector, 25 Pins) output
Pins 1 (NO) and I4 (COM) Cluster alarm 2 output
Normal state : Open
Control/Event slate : Closed
Cluster alamt 2 input *1, *4
Normal state : Open
Control/Event in : Closed
Pins 3, 16 (G) Ground
Pins4 (N0) and 17 (COM) Cluster alarm 1 output
Normal state : Open
Control/ Event state : Closed
Clusler alarm 1 input *1, *4
Normal state : Open
Control/Event in Closed
Ground
Pins 7 (+), 20 (Ground) FAN ALM ll alarm input (TR UNIT No.1 Front FAN ALM)
(e/w FAN Type only) * l,*2, *4
Normal state : Open
Control/Event in Closed
FAN ALM lZ alarm input (TR UNIT No.1 Rear FAN ALM)
(e/w FAN Type only) *1,*2, *4
Normal slate : Open
Control/ Event in Closed
2-1 7
INTERFACE TERMINALS AND JACKS
ROI$06301
Table 2-1 interface Terminals and Jacks on the MDP (6/13)
Pins 9 (+), 22 (Ground)
(e/w FAN Type only)
FAN ALM 21 alarm input (TR
*1,*2, M
Normal state
Control/Event in
FAN ALM 22 alarm input (TR
Pins 10 (+), 23 (Ground)
Pins 35 (COM), l6 (NC)
2-18
Closed
(e/w FAN Type only) *1,*2, *4
Normal state Open
Control/Event in Closed
Pins ll (+), 24 (—) HKZ alarm input “I, *4
Normal state Open
Control/Event in Closed
Pins 12 (+), 25 (—) HKI alarm input ‘1, *4
Normal state Open
Control/Event in Closed
Pin 13 (G) Ground
ALM OUT Alamt output
(D-sub Connector, 37 Pins)
Pins 18 (COM), 36 (NC) Maintenance alarm output ‘3
and 37 (NO) RLl Between Between
Pins 18 and 36 Pins 18 and 51
Normal state Closed Open
Alarm state Open Closed
Power supply alarm I/Power supply alarm 2 output *3
and 17 (N0)— RL2 Between Between
M M
Normal stale Closed Open
Alarm state Open Closed
Pins 15 (COM), 33 (NC) CPU alarm output ‘3
and 34 (NO) — RL3 Between Between
M M5111
Nomral state Closed Open
Alarm state Open Closed
Pins 13 (COM), 31 (NC) TRP alarm l/TRP alarm 2 output ‘2 or equipment alamt output
and 32 (NO) — RL4 Between Between
Pins 13 and 5 Eng 13 and 32
Normal state Closed Open
Alarm/Event State Open Closed
Terminal Descrip 'on
UNIT No.2 Front FAN ALM)
Open
UNIT N02 Rear FAN ALM)
ROI-506301
INTERFACE TERMINALS AND JACKS
Table 2-1 Interface Terminals and Jacks on the MDP (7/13)
Pins 30 (COM), 11 (NC)
and 12 (NO)—RLS
Pins 10 (COM), 23 (NC)
and 29 (NO)-RL6
Pins 8 (COM), 26 (NC)
and 27 (NO)? RL7
Pins 25 (COM), 6 (NC)
and 7 (N0)7RL8 ‘5
Pins 5 (C01v1),23 (NC)
and 24 (N0) 71m) *5
Pins 3 (COM), 21 (NC)
and 22 (N0)—RL10 *5
Pins 20'm”} f"fi|N'”'"s'|éNAL}
AME M : ; & NAME;
CTS 8 filfii— a RTS ‘
- RTS 7 ——~—-—— 7 crs
- DTR 6 57— e DTR ‘
. GND 5 fl*——¢— 5 GND ‘
: DSR 4 -:————: 4 DSR
: 1x0 3 —%—1 3 mm
? RXD 2 _—— 2 TXD ‘
1 DCD 1 *~————1 CD ‘
D-SUB CONNECTOR MODULAR CONNECTOR
(9Pins)
Fig. 5-1 RS-23ZC Cable Pin Assignment
RS~2320
CABLE
LCT
Fig. 5-2 LCT Setup
5-6
ROI-506301 SETTING, CONTROL AND MONITORING WITH LCT
Table 5-1 Initial Setting Items
System Configuration Chart 5—1 in this Section
Date and Time Selling Chan 5-2 in this Section
Provisioning Setting Chan 5-3 in this Section
Relay/House Keeping Setting Chart 5-4 in this Section
The communication/serial port settings of the personal computer used as
local craft Ierminal (LCT) is listed below.
- Bils per second: 19200
' Data bits: 8
' Parity: None
' Stop bits: I
- Flow control: Hardware
- Emulation: VTIOO Video Terminal
' Transmission: Add CR at end oflme : No
(ASCII Sending)* (Send line ends with line feeds:No)*
Local echo : No
(Echo typed characters locally : No)*
' Receiving: CR: No
(ASCII Receiving)* (Append line feeds to incoming line ends
: No)*
Return on the right edge: Yes
(Wrap lines that exceed terminal width
: Yes)*
Force incoming data to 7-bit ASCII: No
* Windows HyperTei-minal settings.
Microsotl and Windows are either registered trademark of
Microsoft Corporation in the United States and other countries.
These display screens are shown in Fig. 5-3.
ancssl. For operating the LCT properly, do not use the arrow keys
"—), 7‘ Etc. ” (as genera/e: the ESC code).
2. T he operation check by HyperTerminul attached to Windmvs is
performed by Wine/om 2000,
5-7
SETTING, CONTROL AND MONITORING WITH LCT ROI-806301
The cable connector pin assignments are shown in Fig. 5-1, The length of
the RS-ZSZC cable between the personal compmer and MDP should be
less than 15 m.
Note: Flame mfer In the above screenshnts a: an example/hr the
HyperTermmal Setting
Fig 5-3 Display Screens
5—8
ROI-508301 SETTING, CONTROL AND MONITORING WITH LCT
5.4 LCT System Configuration Setting
Chart 5-1 System Configuration
This chart describes the procedure for setting the system configuration.
The items to he set are as follows:
' Equipment Configuration
' Main Interface
' RF Frequency
' TX Power Control
- Frame 1D
Selling of the system configuration should be performed in following
order
Step Procedure
1 Referring to Fig. 35, connect lhe RS-232C cable between the
LCT and the MDP,
2 Open the Terminal software (erg; HyperTerminal),
3 Enter Login name “Admin" and press the “Enter" key,
4 Enter password “12345678" and press the “Enter” key,
NotesThe fizclarj/ default Setting is “12345678‘1 For
procedures to change the password, refer tn the Appendix
in Maintenance section.
Login : Admin
Password : """“"
--- NEC PDH RADIO VERA X.XX.XX --»
0. Logout
1. Alarm I Status
2. Performance Monitor
3. Provisioning Data
4. System Configuration
5. Inventory Data
6. Relay] House Keeping
7. Maintenance
Enter Selection :
E"
SETTING, CONTROL AND MONITORING WITH LCT ROI—806301
5-1 0
chart 5-1 System Configuration (Cont‘d)
Step Procedure
u.
Press the “4" key for setting the System Configuration and press
the “Enter" key,
Following is an explanation of each item under the System
Configuration menu.
~ Display Radio Equipment Configuration
Selects to display radio equipment configuration.
~ Setup Radio Equipment Configuration
Selects to set radio equipment configuration.
6 Press the “1“ key for setting the Display Radio Equipment
Configuration and press the “Enter” key,
EnIer Selection : 4
—-- System Configuration -—
1. Display Radio Equipment Configuration
2. Setup Radlo Equipment Configuranon
Enter Selection 2 1
Display Radio Equipment Configuration —
System Configuration : 1+1 (Hot Standby)
TX Switch Type : Mute
rx Frequency : xxxxx.xxxiMHz1
RX Frequency : xxxxxxxxiMHz]
TX Power Control : ATPC
Frame ID ; 1
Main interface : a~1.5M
Modulation : szoAM
System Configuration —.
1, Display Radio Equipment Configuration
zo Setup Radio Equipment Configuration
Notas.-M0du1¢71ion squema is related in the Main INTF C and is
fixed as shown below.
(Wm .» 32 AM
Wim : 128
Zr‘VItSM .~ 649 M
wsM .» 64 QAM
ROI-506301
SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-1 System Configuration (Cont'd)
Step Procedure
7 Press the “2" key for setting the Setup Radio Equipment
Configuration and press the “Enter” key,
»— Equipment configuration —-
1. 1+0 (Expandable)
2.1+1 (Hotstandby)
Current Setting : 1
Enter Selection ([RET]=N0 Change) Z 1
8 Press the “1" key for [+0 system or “2" key (or [+1 Hot
Standby system and press the “Enter” key,
When l+1 Hot Standby system is selected, the “TX Switch
Type“ is displayed, press corresponding key and press the
“Enter" key,
—-- TX Switch Type --»
1. RF SW
2. Mute
CurrentSettlng : 2
Enter Selection ([RET]=N0 Change) :
Note: Select necessarily ”2. Mule”fnr1he TRPs which are ODU type.
Then, "RF Frequency" is displayed,
—- RF Frequency
Current TX Frequency F
Current RX Frequency
Start TX Frequency
Stop TX Frequency xxxxxxanz]
sum Frequency = xxxxxxxanz]
Enter T>< Frequency ([RET] = No Change) :
it is necessary to set frequencies of the TRPs. When the
transmitting frequency is set, the receiving frequency is
automatically set. The actual transmit frequency setting that
is entered should be within the TX frequency band of the
TRP. The “Start", “Stop” and “Shift" frequencies are
displayed on the LCT.
5-1 1
SETTING, CONTROL AND MONITORING WITH LCT ROI$06301
5-1 2
Chart 5-1 System Configuration (Cont’d)
Step Procedure
— RF Frequency
New Rx Frequency = xxxxx.xx>qMHz]
Stan Rx Frequency = xxxxx.xxx[MHz]
Stop Rx Frequency = xxxxxxxwaz]
Enter Rx Frequency (lREfl = No Change):
9 Enter transmil frequency and press the “Enter“ key,
Tx Frequency = xxxxxxxanz]
Rx Frequency= xxxxxxxanz]
Are You Sure 7 (Y/N) : v
Note: The receive frequency is automatically decided by
err/erred fransmii frequency,
When the 6/24 GHz TRP for split type or Indoor type e/w
FAN is used, RX frequency setting is assignable no
concerned with the TX frequency values,
10 When prompted “Are You Sure? (Y/N)“, press the “Y“ and
press the “Enter" key,
TX Power Control
1. MTPC
2. ATPC
Current Setting : 1
Enter Selection ([RET] = No Change) :
An operation mode of transmission power control is selected
from the following two modes.
ATPC : Automatic Transmissron Power Control
MTPC : Manual Transmission Power Control
Note: Set the MTPC mode during antenna orlemation. Sei
to the ATPC mode after antenna orienmtion has been
completed
ROIa$06301
SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-1 System Configuration (Cont’d)
Step
Procedure
Il
Afler setting, press the “Enter” key for selling the Frame ID,
—~ Frame ID --—
Current Setting : 1
Enter ID Not (1-32) (men = No Change):
The Frame ID provides to discriminate the data channel. The
ID should be matched with the opposite station. If different
ID is set, communications cannot be established, therefore,
confirm the ID used opposite station before reset the ID. The
number of IDS which can be set up from/to 32; [DI through
ID32.
After setting the Frame ID, press the “Enter“ key When
prompted “Are You Sure? (Y/N)”, press the “Y“ and press the
“Enter" key,
After setting the System Configuration, proceed to Chart 5-2 for
time setting.
5-13
SETTlNG, CONTROL AND MONITORING WITH LCT ROI-806301
5-14
Chart 54 Date and Time Setting
This chart describes the procedure for setting date and time, When the
MDP is turned off for an extended period (i,e. approx. 1 week), the
equipment time setting could have been cleared. In such case, verify and
re-enler the lime setting after turning on the MDP.
Step Procedure
1 Press the “ESC” key to go back to the following Main menu,
-~— NEC PDH RADIO VER. X.XX.XX -—
0. Logout
1 Alarm I Status
2. Periennance Monitor
3, Provisioning Data
4, System Configuration
5 Inventory Data
6. Relay I House Keeping
7. Maintenance
Enter selection Z
2 Press the “7” key for Maintenance and press the “Enter" key,
Enter Selection : 7
-—> Maintenance ---
1, MAINT Mode (OFF)
2. Control
3, Reset CPU
4. Sat Calendar
5 Password Setting
6. Program Download
Enter Selection : 4
—— Set Calendar —-
Enter Year : 1007
Enter Month : 10
Enter Day : 28
Enter Hour : 18
Enter Min : 20
Enter Sec 1 40
Are You Sure 7 (WM) : Y
Success !!
3 Press the “4” key for setting the Set Calendar and press the
“Enter“ key,
4 Set all calendar items according to display of the LCT,
ROI-806301 SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-2 Date and Time Settlng (Cont‘d)
Step Procedure
5 When prompted “Are You Sure? (Y/N)“‘ press the “Y" and
press the “Enter“ key,
6 Afier selling the time, proceed to Chart 5-3 for the Provisioning
setting.
5-1 5
SETTING, CONTROL AND MONITORING WITH LCT ROI-806301
5.5 Provisioning Setting
5-1 6
Chart 5-3 Display Provisioning Data
This chart describes the procedure for setting the provisioning data.
Step Procedure
1 Press the “ESC” key to go back to the following menu,
—- NEC PDH RADIO VER. X.XX.XX ---
0. Logout
1. Alarm / Status
2, Performance Monitor
3. Provisioning Data
4, System Configuration
5. Inventory Data
6. Relay 1 House Keeping
7. Maintenance
Enter Selection : 3
2 Press the “3" key for Provisioning Dam and press the “Enter"
key'
-- Provisioning Data —-
1. Display Current Data
2. Set Provisioning Data
Enter Selection : 1
Following is an explanation ofeach item ofProvisioning item.
- Display Current Data
Selects to display current provisioning data.
~ Set Provisioning Data
Selects to set provisioning data.
3 Press lhe “1" key to display provisioning current data,
ROI-506301
SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-3 Display Provisioning Data (Cont’d)
Step Procedure
——- Provlsionlnq Data ”7
1.Display cunent Data
2.Set prowsiomng Data
Enter Selection : 1
Main m-n‘c ———
Channel Usage
Bipolar Code
Line Length
Next Data ? tY/N) : y
—77 Main INTFC ———
A15 Generated Report
AIS Recelved Report
Next Data ? (Y/N) : y
—~»- LAN INTFC —-
Port Swltchlng
Port Assignment
Pozt1+2 Throughput
Forth—2 1.5M Frameinq format
Portl Setting
Pottl Colllsmn Report
Portl Flow Control
Portl Link Down Control
Fort? settmg
Port2 Collision Report
Pott2 Flow Control
Port2 Link Down Control
Next Data ? (Y/N) : y
Display Current Data —-A
(CI-101708): HMHH" ..*1
(CHDQ-léi: fl—A**—7»
(CH01»04I f
(CHUSfOBI: v
(CHOQ-IZI: AMI
(CHIB-IGI Bszs
(CHOlfOflI '
(cans—08h ,
(CH09-12I 1337266ft 1 40- Elm
“HIE—16): 2667399ft 1 Sl—lzlmI
(cam—nay: ”Mu”
(CI-(094m: .__‘,__.
(cum-om: “HIM”
(ox-10945“ «um—4
Enable l.'4
Maln Shared .
1.5Mbps1cn01
UF (Unframed
Enable
Enabl
Enabl
Auto Neqotiationthuto MDl/MDlX
Enable
Enable
EnableN
,,'4. ‘10, '11
5-1 7
SETTING, CONTROL AND MONITORING WITH LCT ROI-806301
5-1 8
Chart 5-3 Display Provu
oning Data (Cont’d)
Procedure
”Z.
“J.
‘4.
‘5v
‘6.
‘7.
‘8.
‘9.
.l m
indicates CHn' we , inllfL'fllt/s CH m- ml used. “W mdiculex assigned
In LAN v CH number: are not displayed for the HUME xyslem
Mu ll ,,
fmlimlexm Repor‘ » indicalexlirnolmRvporl, "W'indl'ca/lfx axxigned
to LAN
Displayed when Ute LAN junction fin H'IJMB, mum, 28'I.5MH or
I’45MB xyxlt’mi 01/0 ”Main LAN" For the ale/ail: a/LAN frllerfflce, refer
to {mac/led ”App! (Ilia/1 and Sellinguf/hr- lulloaBASE-n ,, in Scalar: IV
Mainleylancc.
Displayed when lhz LAN/muffin
Shawl].
lndlmlex NA/MainA‘iC/WS/Mul’n shamd/SC Shamd of WS A'Irarezl whilh m-
cm mom/mg m lhe amgmd channel [or Part] / Par/Z When Purl
nemem IS ei/hzr SC Shared, WS Shared or Mam Shmwl, only one il‘em IA'
imllcaml
Thmughpm
Thz (hmnghpul is duplayfld carom/Mg m live ”defined "Main / LAN Slglml
Cnn/igwalion".
The ford/z Frame Made it (lixP/ayfd only whnn [he Paul/Z lhmughpul is
LSMbp: ar 1.5mm; (le; When [he Parldsslgmem is Main Sham! as well
as 1.5mm, Part] Frame Mom is ndl displayed In W5 Shared. and lheh
”Par/I Frame Mm" l: displayed as "Part/+2 Frame Mnde"
Callixion Repon.
In HALF—Duplex mode, it is xelelrlell Iha/ ix mam/ed or not repor/M about
l-olll'xl’on rolltll‘lion: {II and: [W1 (llafiulll value ix Nol Reparl)
Flnw Can/ml:
Enable: Emmiv flow con/ml (default value is Enable).
Dis-able: Non ficclive/Inw comm/v
A” x01 10 SC Shared WS Shared ("l/l Mam
‘10 Link Down Can/ml“
Selling o/lhe Lmk anh Ctmlml made is efi'ecnve or no e/rmlve, (See Link
Loss Folwaniing description in the slam II apemlhm) (Mad/l value is
Disabled).
‘II Link Dawn Can/ml
Mil displayed when Parl filling is “Enable ".
ROI-506301
SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-3 Dlsplay Provisioning Data (Cont‘d)
Step Procedure
EXTERNAL EQUIPMENT
LAN PORT
SETTING POSITION
Auto Negolialion (Auto MDI/MDl—X)
SETTING POSITION
1008ASE-TXIHaIf Duplex
1OOBASE-TXIFuII Duplex
1DBASE-TIFuII Duplex
an
'T
in
tn
,.
4 1OBASE-TIHaIf Duplex(FIXl
Q 1OOBASE-TXIHaIf Duplex(FIX)
Q Auto Negotiation
lOBASE-T/Half Duplex (MDI/MDI-X")
lOBASE-T/Full Duplex (MDI/MDl-X")
lOOBASE»TX/Half Duplex (MDI/MDI-X*)
lOOBASE-TX/Full Duplex (MDI/MDI-X*)
V : A setup is possible,
‘ MDI/MDI—X is selected according to the cable type or
terminal lype 10 he used (straight or any: type).
5-1 9
SETTING, CONTROL AND MON|TORING WITH LCT
ROI-506301
Chart 5-3 Display Provisioning Da'a (Coni’d)
Step
Procedure
W” Wayside INTFC———
Vll—l Direction Type
vii—2 Setting
V114 Direction Type
szw Priokity
RXSW Priority
Provlsicninq Data --—
1.Disp1ay Current Data
ZiSet Provisioning Data
Enter Selection
Usage 1.5ME (mm
Line Length 0 — 133ft 10 — 40m)
AIS Generated Report Report
A15 Received Report Report
Next Data ? lY/N) : y
sc Assignment
R5232C Setting : not Used
vii—1 Setting DSCl
Contra-directional
Dsc2
contraedizectional
Next Data ? 11/14» 1 y
’—- MDP ——~
High BER 35—4
Low BER . 3E—7
AIS Activation Condition : LOE‘ or ngh BER
AIS Activation Delay Time: Include
MTPC 1x PWR , 715dB —15dB ‘1
ATPC Maximum PWR . UdB OdB }i2
ATPC Minimum PWR ~23cu3 —23dE
RX Threshold vssousm —55dE
Additionai ATT (ME (ME
TRP ALM Mode HOLD
Non-priority
Priority No.)
we Indicates when the MTPC is selu/ed in JVJ'Ve‘m configurminm
~z. Indian/ex when m ATI’C n- ielnw m system cvnfigumlfum
ROI$06301
SETTING, CONTROL AND MONITORING WITH LCT
Chart 5-4 Set Provisioning Data
Step Procedure
1 Press the “2“ key and press lhe “Euler“ key,
-— Provisionlng Data ---
1. Display Current Data
2, Sal Provisioning Data
Enler Selection : 2
— Set Provisioning Dala m
. TRF' ALM Mode
. TX SW Prionly
, RX sw Priorily
. Channel Usage Error
. AIS Aciivalion Condition
. AIS Acllvalion Delay Time
. AIS Generated Repon
, AIS Reueived Report
Enler Selection i
Main / LAN Signal configuration
BER Threshold
Wayside Interface ....... '1
so Assignmenl
MTPC TX PWR
ATPC Range
RX Threshold
Addilional ATT
'2
'3
“4
“4
Notex: Selling items displayed an the LCT depend (m setting
condition of "System Can/iguration ".
*l. Di.\'playx when the 28 X 1.5 MB or I X 45 MB ix
selected in xystem corifigilratinn,
"‘2. Dixplayx when the MTPC is selected in system
configuration.
*3. Dii'plays when the ATPC is minted in system
configuration.
”‘4. Displays when equipment configuration is I +1
system.
5-21
SETTING, CONTROL AND MONITORING WITH LCT ROI-806301
5-22
Chart 5-4 Sat Provisioning Data (Cont’d)
Step Procedure
For 8/16/28 X 1.5 MB system
2 Press the “1" key for the Main/LAN Signal configuration menu
and press the “Enter" key. Then select the channel number to be
set,
—- LAN (Main IWS I SC) function ---
1. Used
2, Not Used
Current Setting : 1
Enter Selection ([RET]=N0 Change) : z
3 Press the “1" key and press the “Enter" key when LAN is not
provided,
—» Main lntertaoe Setting --—
—- CH01 Usage -—
1. Used
2, Not Used
Current Setting ' 1
Enter Selection (men = No Change) :
The main channel signal to he used is selected from the
following items.
Used: When the 1.5 Mbps signal is applied select the
“Used" in corresponding channeli
Not Used: When the 15 Mbps signal is not applied‘ select
the “Not Used” in corresponding channel,
--— Main Interface Setting —-
—- CH02 Usage —-
1. Used
2. Not Used
Current Setting : 1
EnterSeleelinn ([RET] : No Change) :
4 After setting, press the “Enter“ key for continue other channels,
--> CHM—04 Bipolar Code Select m
t. AMI
2. 5525
Current Setting : 1
Enter Selection ([RET] = No Change) :
Set AM] or BSZS and line length for each 4 CH block.
ROI-806301
SETTING, CONTROL AND MONITORING WITH LCT
Chan 5—4 Set Provisioning Data (Cont’d)
Step Procedure
5 Press Ihe “1“ or “2" key and press the “Enter" key,
--— CHM-04 Line Length Select ---
1. 0-133fi( 0~40m)
2. 133 - 268“ (40 - 81m)
3. 266 - 399" ( 81 » 121m)
4. 399 - 533" (121 ~ 162m)
5, 533 - 655“ (162 - 199m)
Current Setting : 1
Enter Selection (men = No Change) :
When the Line Length selection is performed for the CHZS to
CH28 in 28 X 1.5 MB system, set the rotary switch CH27 or
CH28 on the LSM SUB INTFC to any 0, 6, 7, 8. 9 or F position.
Nate: For respective CH27 and CH28, the Line Length
selection can be performed using ratary switch on the
I.5M SUB INTFC too. For the details of the rotary
switch, refer to 3 CONTROLS, INDICATORS AND TEST
JACKS in this Section 11.
6 Enter item number for corresponding Line Lengh and press the
“Enter" key,
Set AMI or BXZS and line length for each 4 CH block.
7 After setting, press the “Enter" key to go back to the menu
shown in step 1,
8 Press the “1" key and press the “Enter” key,
Nate; Applies onlyfnr MAIN LAN system.
--» LAN (Main IWS / SC) function —-
1. Used
2. Not Used
Current Setting : 2
Enter Seiection (IREfl=No Change) : 1
9 Press the “I“ key and press the “Enter“ key when LAN is
provided,
5-23
SETTING, CONTROL AND MONITORlNG WITH LCT ROI»306301
5-24
Chart 54 Set Provisioning Data (Cont‘d)
Step
Procedure
-— LAN Interface Setting --
—-- Pom/Fonz Assignment —-
, SC
. WS
. Main
v SC
. SC
, Main
. Main
v Main
mucmawN-n
9.
Enter Selection : 1
NA
NAM...“ "1
NA,
SC
Main.
SC Shared
10. W5 Shared.,...., '1
11. Main Shared
10
Nate: *]; displayed only when optional WS is provided.
When the SC is assigned in Portl/PortZ for LAN, the LAN port
is shared as following
Enter item number for assignmenl of LAN Port and press the
“Enter” key,
LAN port assignement for SC/WS/Main signal is displayed for
Port] /Port2 or Shared (i.e. PortH-PortZ).
When Port] is assigned to SC/NA‘ SC/WS or Porll+Port2 to SC
Shared, the throughput for SC signal is selectable from either
64kbps or IZXkbps.
When Portl is assigned to WS, throughput for WS signal in
Port] is fixed in 1.5Mbps.
—- Pom Throughput —-
1. 64kbps
2, 1zskbps
Current Setting : 2
EnterSelection ([RET]=N0 Change) : 1
When P0111 is assigned to 1.5Mhps Main signal, throughput for
Main signal is selectable at Main/NA, Main/SC, Main/WS and
Main/Main according to Main signal interface.

---

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