Loop Telecom Loop-O9500R User Manual

1

Loop-O9500R
SDH/SONET IMAP

Description

The Loop-O9500R SDH/SONET IMAP (Integrated
Multi-Services Access Platform) is an economical
STM-1/4/16 (OC-3/12/48) access multiplexer
designed to provide integrated access to STM-1/4/16
(OC-3/12/48) optical lines. Access is provided through
either a non-blocking VC11/VC12/VC3/VC4
cross-connect with HS tributary modules or through an
additional non-blocking DS0 cross-connect fabric with
LS tributary modules.

The 6U shelf supports:

 4 HS tributary module slots
 6 LS tributary module slots

With up to 4 STM-1/4/16 (OC-3/12/48) aggregate
interfaces on cross-connect modules and 8 STM-1
(OC-3) interfaces on tributaries, the Loop-O9500R
SDH/SONET IMAP offers service providers a versatile
protection schemes including SNCP(UPSR) and
MSP(1+1) protection for both ring and linear network
topologies. The O9500R can work with the
Loop-O9100 and Loop-O9400 in the same topology.

The non-blocking VC11/VC12/VC3/VC4 cross­connect capability on High Speed (HS) is up to 20
VC4. The HS tributary modules include optical
STM-1/4 (OC-3/12), E3/T3, E1/T1 interfaces, FOM
and Fast Ethernet/Gigabit Ethernet over STM-1/4/16
(OC-3/12/48). Ethernet signals are mapped onto STM
payload through standard techniques such as GFP,
LAPS, VCAT, LCAS, and non-LCAS. These HS
modules are identical to those used in the rack version
of the Loop-O9400.

The uplink non-blocking DS0 cross-connect to HS is
up to 21 E1 or 28 T1. The non-blocking DS0
cross-connect capability on Low Speed (LS) is up to
768 DS0. Through a full non-blocking DS0
cross-connect and together can act as a mini DACS.
The modules include variety of TDM, IP, and voice
interfaces detailed on next page. All LS modules are
identical to those used in rack version of the
Loop-AM3440.

All interfaces are fully compliant with the relevant ETSI
standards and ITU recommendations. The O9500R
SDH/SONET IMAP provides full Operation,
Administration, Maintenance and Provisioning
(OAM&P) functionality.

Users can easily operate the O9500R locally or
remotely for centralized management with Loop-iNET
(EMS) and Loop-iNMS (Integrated NMS).

Features

 6U height, full front access (ETSI) shelf
 TM, ADM and DCS (full cross-connect) at DS0,

VC11, VC12, VC3, VC4

 Aggregate cross-connect modules (controller

modules)

- Up to STM-1/4/16 (OC-3/12/48) aggregate lines
with software configuration (CC16)

- Up to STM-1/4 (OC-3/12) aggregate lines with
software configuration (CC4)

 Hot-swappable cross-connect modules,

tributary modules and power modules.

 Tributary Modules (See Table 1 below)

- High-Speed (High Density) access
tributary modules (HS)

- Low-Speed access tributary modules (LS)

 Power Modules

- DC Module (-48/-125/-250 Vdc)

- Dual Power (1+1) Protection

 Protection Scheme

 Tributary protection

- E1/T1: card, port, line

- E3/T3: line

- B155/622: MSP, SNCP/UPSR

- Ethernet

- 7 FOM: line

 Cross-connect unit (XCU) protection

- MSP

- SNCP/UPSR

 DS0-SNCP protection
 External/Internal/Line timing source with SSM
 Ethernet supports GFP, LAPS, VCAT, LCAS

and non-LCAS

 Ethernet Order Wire (EOW) using VoIP

technology

 Alarm suppression, masking and reports
 Management

 Console port, VT100 menu-driven
 SNMP Port
 Telnet and SSH
 Centralized management with Loop‟s EMS/NMS

over DCC channel

 Loop-iNET GUI EMS
 TMN management(Loop-iNMS) with full FCAPS

and end-to-end circuit management

 RoHS compliant

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

2

Table 1: Loop-O9500R Tributary Modules

Tributary Type

Plug-in Interface Cards

Maximum Capacity

For STM-1/4 (OC-3/12)

aggregate cross connect module

For STM-1/4/16 (OC-3/12/48)

aggregate cross connect module

on CHAA Chassis

High-Speed

(High Density)

Access Tributary

Modules

(HS)

STM-4 (OC-12) tributaries

1 MSP 1 + 1

2 MSP 1+1 or
2 Sub-ring SNCP or
4 STM-4 without protection

STM-1 (OC-3) tributaries

3 MSP 1 + 1 or
3 Sub-ring SNCP or
6 STM-1 without protection

4 MSP 1+1 or
4 Sub-ring SNCP or
8 STM-1 without protection

63 port E1/T1 tributaries

252 E1/T1 without protection, or 126
E1/T1 with 1+1 card protection

252 E1/T1 without protection, or
126 E1/T1 with 1+1 card protection

32 port E1/T1 tributaries

16 port E1/T1 tributaries

3 port E3/T3 tributaries

12 E3/T3 without protection, or 6
E3/T3 with 1+1 card protection

12 E3/T3 without protection, or
6 E3/T3 with 1+1 card protection

8FE+1GbE EoS card with/ without
built-in L2 switch

32 FE + 4GbE

32 FE + 4GbE
4GbE EoS card with L2 switch *

--

8 GbE

7 port FOM tributaries

28 FOM without protection, or 14
FOM with protection

28 FOM without protection, or
14 FOM with protection

Low-Speed Access

Tributary Modules

(LS)

Low Speed Single-Slot Cards

8-port Bridge/Router

48-port Bridge/Router

4-channel E1/T1

24-channel E1/T1

3-channel E1/T1

18-channel E1/T1 (DS0 SNCP Protection)

2-channel G.SHDSL (2 pairs)
without line power

12-channel G.SHDSL (2 pairs) without line power

4-channel G.SHDSL (1 pairs)
without line power

24-channel G.SHDSL (1 pairs) without line power

8-channel G.703 card at 64 Kbps
data rate

48-channel G.703 card at 64 Kbps data rate

1 or 4 channel C37.94
(low speed optical)

6 or 24 channel C37.94 (low speed optical)
8-channel RS232/V.24

48-channel RS232/V.24

8-channel Dry Contact I/O

48-channel Dry Contact I/O

8-channel Dry Contact I/O type B

48-channel Dry Contact I/O type B

8-channel 2W/4W E&M

48-channel 2W/4W E&M

12-channel FXS

72-channel FXS

12-channel FXO

72-channel FXO

Conference card

Conference card

12-channel Magneto

72-channel Magneto

TDMoE

TDMoE

8-channel Data Bridge

48-channel Data Bridge

8-channel UDTEA

48-channel UDTEA

1 port FOM (1FOMB)

6-port FOM

8-channel OCUDPA

48-channel OCUDPA

6-channel UDTEA*

36-channel UDTEA

Low Speed Dual-Slot Cards

6-channel V.35

18-channel V.35

6-channel V.36

18-channel V.36

6-channel X.21/V.11

18-channel X.21/V.11

6-channel EIA530/RS449

18-channel EIA530/RS449

24-channel FXS

72-channel FXS

24-channel FXO

72-channel FXO

*Future Option

Notes: Single-Slot Cards plug into singles slots; Dual-Slot Cards plug into two adjacent single slots

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

3

Table 2: Maximum Number of Channels/Ports on Each Plug-in Card (with CC4)

Slot

Plug-in Card

TRIB 1

TRIB 2

TRIB 3

TRIB 4

XCU 1

XCU 2

Trib 11~16

(per card)

Total

E1/T1 (For HS slots)

63

63

63

63 x x

x

252

E1/T1

E1/T1 (For LS slots)

x x x x x

x

4E1

4T1

21E1
24T1

E3/T3 3 3 3 3 x x x 12 E3/T3

9EoS4SW
(Ethernet)

FE

8 8 8 8 x x x

32

GbE

1 1 1 1 x x x

4

Optical
(SFP)

STM-1

2

2
1

1

2 2 x

10

2

(B)

STM-4

1

(B) x x 2 2 x 5

7FOM (For HS slots)

7 7 7 7 x x x

28

1FOMB (For LS slots)

x x x x x x 1

6

RTB (Bridge/Router)

x x x x x x 8

48

G.SHDSL

x x x x x x 2/4

12/24

3 E1/T1 (DS0 SNCP)

x x x x x x 3

18

G.703 x x x x x x 8 48

C37.94 x x x x x x

1/4

4/24

Dry Contact

x x x x x x 8

48

Dry Contact type B

x x x x x x 8

48

RS232/V.24

x x x x x x 8

48

Conference

(Note 1)

x x x x x x 6

36

12 FXS/FXO

x x x x x x 12

72

12 Magneto

x x x x x x 12

72

E&M x x x x x x 8 48

V.35/V.36/X.21

x x x x x x 6

18

EIA530/RS449

x x x x x x 6

18

24 FXS/FXO

x x x x x x 24

72

TDMoE

x x x x x x 4

24

Data Bridge

x x x x x x 8

48

8 UDTEA

x x x x x x 8

48

8 OCUDPA

x x x x x x 8

48

6 UDTEA*

x x x x x x 6

36

*Future Option

X: not applicable

(B) Backup
Note 1: A conference plug-in card contains two RS232 data ports, two FXS ports and two E&M ports.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

4

Table 3: Maximum Number of Channels/Ports on Each Plug-in Card (with CC16 on CHAA)

Slot

Plug-in Card

TRIB 1

TRIB 2

TRIB 3

TRIB 4

XCU 1

XCU 2

Trib 11~16

(per card)

Total

E1/T1 (For HS slots)

63

63

63

63 x x

x

252

E1/T1

E1/T1 (For LS slots)

x x x x x

x

4E1

4T1

21E1
24T1

E3/T3 3 3 3 3 x x x 12 E3/T3

9EoS4SW
(Ethernet)

FE 8 8 8 8 x x x 32

GbE 1 1 1 1 x x x 4

4GESW*

GbE x x 4 4 x x x 8

Optical
(SFP)

STM-1 2 2 2 2 2 2 x 12

STM-4 1 1 1 1 2 2 x 8

STM-16

x x x x 2 2 x

4

7FOM (For HS slots)

7 7 7 7 x x x

28

1FOMB (For LS slots)

x x x x x x 1

6

RTB (Bridge/Router)

x x x x x x 8

48

G.SHDSL

x x x x x x 2/4

12/24

3 E1/T1 (DS0 SNCP)

x x x x x x 3

18

G.703 x x x x x x 8 48

C37.94 x x x x x x

1/4

4/24

Dry Contact

x x x x x x 8

48

Dry Contact type B

x x x x x x 8

48

RS232/V.24

x x x x x x 8

48

Conference

(Note 1)

x x x x x x 6

36

12 FXS/FXO

x x x x x x 12

72

12 Magneto

x x x x x x 12

72

E&M x x x x x x 8 48

V.35/V.36/X.21

x x x x x x 6

18

EIA530/RS449

x x x x x x 6

18

24 FXS/FXO

x x x x x x 24

72

TDMoE

x x x x x x 4

24

Data Bridge

x x x x x x 8

48

8 UDTEA

x x x x x x 8

48

8 OCUDPA

x x x x x x 8

48

6 UDTEA*

x x x x x x 6

36

*Future Option

X: not applicable

(B) Backup
Note 1: A conference plug-in card contains two RS232 data ports, two FXS ports and two E&M ports.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

5

Ordering Information

Note: RoHS compliant units are identified by the letter G appearing immediately at the end of the ordering code.

Model

Description

Notes

Main Unit

Loop-O9500-R-CHA-G

6U height Rack chassis for O9500R
without CPU and power

Loop-O9500-R-CHAA-G

6U height Rack chassis support up to 2.5G Mbps
mapping bandwidth for O9500R
without CPU and power

Controller Modules (CPU)

Loop-O9500-R-CC16-G

Controller module with cross-connect unit and
two STM-1/4/16 (OC-3/12/48) interfaces
without SFP (mini-GBIC) optical modules

· Order two for redundancy.

· Please order SFP optical modules

separately from SFP optical
modules brochure

· Use with Loop-O9500-R-CHAA-G

Loop-O9500-R-CC4-G

Controller module with cross-connect unit and
two STM-1/4 (OC-3/12) interfaces
without SFP (mini-GBIC) optical modules

· Order two for redundancy.

· Please order SFP optical modules

separately from SFP optical
modules brochure

· Use with Loop-O9500-R-CHA-G or
Loop-O9500-R-CHAA-G

Connector Board and Fan Modules

Loop-O9500-R-CBA-G

Connector Board

· CBA or CBB is required for each
chassis.

· If you need order wire function in
CBA, please purchase order wire
phone: Loop-O9500-R-OW under
accessory section.

Loop-O9500-R-CBB-G

Connector Board with EoW using VoIP
technology

· CBA or CBB is required for each
chassis.

· You can use regular analog phone
for order wire function in CBB.

Loop-O9500-R-FANA-G

Fan Board

· One required for each chassis.

High Speed or High Density Tributary Modules

Loop-O9500-R-16TE-G

16 E1 (120 ohm) or 16 T1 software
programmable plug-in card

· The 16/32/63TE modules can also
be used in the Loop-O9400R.

Loop-O9500-R-32TE-G

32 E1 (120 ohm) or 32 T1 software
programmable plug-in card

Loop-O9500-R-63TE-G

63 E1 (120 ohm) or 63 T1 software
programmable plug-in card

Loop-O9500-R-16E75-G

16 E1(75 ohm) plug-in card

· The 16/32/63E75 modules can also
be used in the Loop-O9400R.

Loop-O9500-R-32E75-G

32 E1(75 ohm) plug-in card
Loop-O9500-R-63E75-G

63 E1(75 ohm) plug-in card

Loop-O9500-R-3TE3-G

3 T3 or 3 E3 software programmable interface
plug-in card

· The 3TE3 and 3TE3M13 modules
can also be used in the
Loop-O9400R.

Loop-O9500-R-3TE3M13-G

3 T3 or 3 E3 software programmable interface
plug-in modules with M13 /Mx3 function for T3
interface only

Loop-O9500-R-7FOM-G

7-port Fiber Optical Interface with 7 SFP
housings (SFP not included)

· This card can also be used in the
Loop-O9400R.

· Please order SFP optical modules
separately from SFP optical
modules brochure

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

6

Loop-09500-R-9EoS4NSW-G

1 GbE or 8FE software programmable plug-in
card without L2 switch

· This card can also be used in the
Loop-O9400R.

Loop-O9500-R-9EoS4SW-G

1GbE and 8FE plug-in card with L2 switch

· This card can also be used in the
Loop-O9400R.

Loop-O9500-R-B16-G

STM-1/4 (OC-3/12) software configurable p
lug-in card without SFP (mini-GBIC) optical
modules

· This card can also be used in the
Loop-O9400R.

Loop-O9500-R-4GESW-G*

4 GbE card with 2 combo and 2 optical
(10/100/1000BaseT) interface plug-in module
with L2 switch

· Use with Loop-O9500-R-CC16-G
controller module only

· Use with Loop-O9500-R-CHAA-G
chassis‟ tributary slot 3 and 4 only.

*Future Option

Low Speed Tributary Modules (Single Slot)

Loop-O9500-R-4E1-cc-G

4-channel E1 plug-in card.

· This card can also be used in the
Loop-AM3440-A/B/C.

· For cc option, please refer to the
table below for detail information

Loop-O9500-R-4T1-G

4-channel T1 plug-in card

· This card can also be used in the
Loop-AM3440-A/B/C.

Loop- O9500-R-3E1-cc-G

3-channel E1 plug-in card with DS0 (64K bps)
SNCP protection

· For cc option, please refer to the
table below for detail information
This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-3T1-G

3-channel T1 Interface

· For software version 3.02.01 or
newer versions.

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-2GH-G

2-channel G.SHDSL plug-in card (2 pair)

· This card can also be used in the
Loop-AM3440-A/B/C.

Loop-O9500-R-4GH-G

4-channel G.SHDSL plug-in card (1 pair)

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-8DC-G

8-channel dry contact plug-in card with
maximum voltage 100 Vdc or 250 Vac

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop- O9500-R-8DCB-G

8-channel dry contact type B plug-in card with
maximum voltage 220 Vdc or 250 Vac

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-8CD-G

8-channel G.703 plug-in card at 64 Kbps data
rate

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-1C37- LSFOM –G

1- channel C37.94 plug-in card

· For LSFOM option, please refer to
the table below for detail
information

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-4C37- LSFOM –G

4- channel C37.94 plug-in card

Loop-O9500-R-8RS232-RJ- G

8-port RS232 plug-in card with X.50 subrate
multiplexing scheme and X.54 encoding, with
8 RJ48 connectors for 8 RS232 Async ports

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-8RS232-DB-G

8-port RS232 plug-in card with X.50 subrate
multiplexing scheme and X.54 encoding, with
2RJ48 connectors and 2 DB44 connectors for
Async and Sync ports

· Two conversion cables are
included. (Each cable has one
DB44 connector to one DB9 and
two DB25 connectors).

· This card can also be used in the
Loop-AM3440-A /B/C.

Loop-O9500-R-8DBRA-RJ-G

8-channel data bridge plug-in card, with 8
RJ48 connectors for 8 data bridge Async
ports

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-8DBRA-DB-G

8-channel data bridge plug-in card, with 2
RJ48 connectors and 2DB44 connectors for 8
data bridge Async ports

· Two conversion cables are
included (DB44 connector to two
DB25 and one DB9 connector;
(Loop-ACC-CAB-DB44M-100­2DB25F-1DB09F-DB).

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

7

Loop-O9500-R-RTB-G

8-LAN port/64 WAN ports router/bridge
plug-in card

· This card can also be used in the

· Loop-AM3440-A/B/C.

Loop-O9500-R-CONF-G

Conference plug-in card with two RS232 data
ports, two FXS ports and two E&M ports

· This card can also be used in the
Loop-AM3440-A/B/C.

Loop-O9500-R-TDMoE-PPM-G

TDMoE card with 2 GbE combo interfaces
and 2 Ethernet interfaces
(10/100/1000BaseT) plug-in module.

Support G.823 Traffic

· The SFP module is not included in
the TDMoE card.

· Please order separately for SFP
optical modules from SFP optical
brochure

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-8UDTEA-opm-G

8-port universal data interface card that
supports RS232/RS422/RS485 DCE
interface which is software configurable
Available option mode: Terminal Server
and/or Omnibus

· For opm option, please refer to
the table below for detail
information.

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-8EM-x-G

8-channel 2W/4W E&M plug-in card with 8
RJ45

· “8EM” card with H/W ver. F (and
later versions), F/W V4.01.01 (and
later versions) can also be used in
the Loop-AM3440-A /B/C.

· For x option, please refer to the
table below.

Loop-O9500-R-12MAG-1G-x-G

12-channel Magneto plug-in module w/ L1.
GND

· 12MAG-1G2 includes all function
of MAG cards.

· For x option, please refer to the
table below for detail information.

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-12MAG-12-x-G

12-channel Magneto plug-in module w/ L1,L2

Loop-O9500-R-12MAG-1G2-x-G

12-channel Magneto plug-in module w/ L1,L2
and L1. GND

Loop-O9500-R-12MAG-A-1G-x-G

12-channel Magneto ring-one-time plug-in
module w/ L1. GND

· 12MAG-A-1G2 includes all
function of 12MAG-A cards.

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-12MAG-A-12-x-G

12-channel Magneto ring-one-time plug-in
module w/ L1, L2

Loop-O9500-R-12MAG-A-1G2-x-G

12-channel Magneto ring-one-time plug-in
module w/ L1, L2, and L1. GND

Loop-O9500-R-12FXS- sn-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR, without
Ground Start and Metering Pulse. Used with
12 RJ11.

· 12FXS-GMP includes all FXS
Card functions.

· “12FXS-x” cards with H/W ver. L
and F/W V.3.01.01 or newer
versions.

· It can also be used in the
Loop-AM3440-A /B/C

· For sn option, please refer to the
table below for detail information.

· pt= power type

· For pt option, please refer to the

table below for detail information

Loop-O9500-R-12FXS-P-sn-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR, without
Ground Start and Metering Pulse PLAR bit
programmable function. Used with 12 RJ11.

Loop-O9500-R-12FXS-M-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR,
[Metering Pulse]. Used with 12 RJ11.

Loop-O9500-R-12FXS-MPP-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR and
PLAR bit programmable function, [Metering
Pulse]. Used with 12 RJ11.

Loop-O9500-R-12FXS-GS-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR, [Ground
Start] . Used with 12 RJ11.

Loop-O9500-R-12FXS-GM-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR, [Ground
Start, and Metering Pulse]. Used with 12
RJ11.

Loop-O9500-R-12FXS-GMP-pt-G

12-channel FXS plug-in card with 600/ 900
Impedance, Battery Reverse, PLAR and
PLAR bit programmable function, [Ground
Start, and Metering Pulse]. Used with 12
RJ11.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

8

Loop-O9500-R-12FXO-G

12-channel FXO plug-in card with 600/ 900
Impedance, Battery Reverse, without Ground
Start and Metering Pulse. Used with 12 RJ11.

· 12FXO-GM includes all FXO Card
functions.

· “12FXO-x” cards with H/W ver. G
and F/W V2.01.01 or newer
versions. It can also be used in
the AM3440-A /B/C

Loop-O9500-R-12FXO-M-G

12-channel FXO plug-in card with 600/ 900
Impedance, Battery Reverse, [ Metering
Pulse ] Used with 12 RJ11.

Loop-O9500-R-12FXO-GS-G

12-channel FXO plug-in card with 600/ 900
Impedance, Battery Reverse, [ Ground Start ]
Used with 12 RJ11.

Loop-O9500-R-12FXO-GM-G

12-channel FXO plug-in card with 600/ 900
Impedance, Battery Reverse, [ Ground Start,
and Metering Pulse ] Used with 12 RJ11.

Loop-O9500-R-1FOMB-opt-G

1FOMB Fiber Optical Interface with 1x9
optical port

· For opt option, please refer to the
table below for detail information

· This card can also be used in the
Loop-AM3440-A/B/C

Loop-O9500-R-OCUDPA

8-channel OCU-DP plug-in module

· Only non-RoHS compliant model
available

· Not for AM3440 Series

Low Speed Tributary Modules (Dual Slots)

Loop-O9500-R-6X21A-G

6-channel X.21/V.11 card with DB15
connector

· These cards will occupy two slots.

· These cards can also be used in

the Loop-AM3440-A /B/C.

Loop-O9500-R -6V35A-G

6-channel V.35 plug-in card with DB25S
connector, for M34. (2Mbits per channel)
Please order conversion cable connector
below.

Loop-O9500-R -6V36A-G

6-channel V.36 card with DB25 connector via
conversion cable to DB37

Loop-O9500-R-6E530A-G

6-channel EIA530 plug-in card with DB25
connector

Loop-O9500-R-6RS449A-G

6-channel EIA530/RS449 plug-in card with
DB25 connector via conversion cable to DB37

Loop-O9500-R-24FXS-sn-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse, Loop Start and
PLAR Without Ground Start and Metering Pulse

· 24FXS-GMP includes all FXS card
functions.

· These cards will occupy two slots.

· These cards can also be used in

the Loop-AM3440-A /B/C

· For sn option, please refer to the
table below for detail information

· For pt option, please refer to the
table below for detail information

Loop-O9500-R-24FXS-P-sn-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse, Loop Start, PLAR
and [PLAR bit programmable].

Without Ground Start and Metering Pulse

Loop-O9500-R-24FXS-M-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse,

Loop Start, PLAR and [Metering Pulse].

Loop-O9500-R-24FXS-MPP-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse, Loop Start, PLAR,
[PLAR bit programmable] and [Metering Pulse].

Loop-O9500-R-24FXS-GS-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse, Loop Start, PLAR
and [Ground Start].

Loop-O9500-R-24FXS-GM-pt-G

24-channel FXS plug-in card e with 600/900
Impedance, Battery Reverse, Loop Start, PLAR,
[Ground Start] and [Metering Pulse].

Loop-O9500-R-24FXS-GMP-pt-G

24-channel FXS plug-in card with 600/900
Impedance, Battery Reverse, Loop Start, PLAR,

[PLAR bit programmable], [Ground Start] and
[Metering Pulse].

Loop-O9500-R-24FXO-G

24-channel FXO plug-in card with 600/900
Impedance, Battery Reverse and Loop Start.

· 24FXO-GM includes all FXO card

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

9

Without Ground Start and Metering Pulse

functions.

· These cards will occupy two slots.

· These cards can also be used in

the Loop-AM3440-A /B/C

Loop-O9500-R-24FXO-M-G

24-channel FXO plug-in card with 600/900
Impedance, Battery Reverse, Loop Start and
[Metering Pulse].

Loop- O9500-R-24FXO-GS-G

24-channel FXO plug-in card with 600/900
Impedance, Battery Reverse, Loop Start and
[Ground Start].

Loop- O9500-R-24FXO-GM-G

24-channel FXO plug-in card with 600/900
Impedance, Battery Reverse, Loop Start,
[Ground Start] and [Metering Pulse].

Feature Activation License

Loop-O9500-R-3M13

Feature Activation License for O9500-R 3TE3 module
to support M13/Mx3 function for T3 interface only

· Use with 3TE3 HS tributary
module

Loop-O9500-R-ERING

Feature Activation License for O9500-R controller
module to support framed E1 PDH-Ring function

· Use with 4E1 or FOM LS tributary
modules

Loop-O9500-R-TRING

Feature Activation License for O9500-R controller
module to support framed T1 PDH-Ring function

· Use with 4T1 LS tributary modules

Accessories

SFP Optical Modules

Please place your order using the 5-digit alphanumeric codes listed in the separate SFP Optical Module Brochure.

User’s Manual

Loop-O9500-R-UMA

Optional, paper copy of User Manual. A CD version of the manual is already included
as standard package.

Power Modules

Loop-O9500-R-SD48-G

Single power module -48Vdc

· For redundancy purposes, order 2
single DC.

Loop-O9500-R-SD48/125-G

Single power module (300W) Input,
48Vdc/125Vdc (36 to 140Vdc)

· For redundancy purposes, order 2
single DC.

Loop-O9500-R-SD125/250-G

Single power module (300W)
Input 125Vdc/250Vdc (100 to 260Vdc)

· For redundancy purposes, order 2
single DC.

Power Adaptor (All power adaptor are RoHS compliant)

Loop-ACC-APA-240-G

240 Watt, AC (100 to 120 Vac, 5.0A/200 to 240
Vac, 2.5A auto sensing) to DC (-48 Vdc, 5A)
adaptor for USA

· This power adaptor is only for
Loop-O9500-R-SD48.

Loop-ACC-APE-240-G

240 Watt, AC (100 to 120 Vac, 5.0A/200 to 240
Vac, 2.5A auto sensing) to DC (-48 Vdc, 5A)
adaptor for Europe

Loop-ACC-APU-240-G

240 Watt, AC (100 to 120 Vac, 5.0A/200 to 240
Vac, 2.5A auto sensing) to DC (-48 Vdc, 5A)
adaptor for UK

FXO BOX

Loop-ACC-FXOBOX

Support FXO Interface Feed

Order wire phone is an option for CBA board

Loop-O9500-R-OW-USA-G

Ethernet Order Wire phone (using VoIP
technology) with America power plug

Loop-O9500-R-OW-EU-G

Ethernet Order Wire phone (using VoIP
technology) with Europe power plug

SIP Proxy Server

Loop-O9500-R-SIP

SIP Proxy Server Basic Software
Note: One SIP Proxy Server License supports up

to 25 phone lines. Multiple licenses must be
purchased if the number of phone lines exceeds

25.

· Customer must provide a MAC
address so that a license key can
be generated to operate the
software at that address.

Mounting Ear

19”/23” ear mounts

A pair of 19”/23” ear mounts is supplied as part of standard package.
Note: For other sizes, please contact your nearest Loop sales representative.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

10

Conversion Panels

Loop-ACC-P-1SCSI-16RJ-G

1u panel for one SCSI to 16 RJ connectors
without cable

432x44x23mm (WxHxD)

· Use with 16/32/63TE HS tributary
modules

· This panel can also be used in the
Loop-O9400R.

Loop-ACC-P-1SCSI-16WW-G

1u panel for one SCSI to 16 Wire Wrap
connectors without cable

432x44x40mm (WxHxD)

· Use with 16/32/63TE or
16/32/63E75 HS tributary modules

· This panel can also be used in the
Loop-O9400R.

Loop-ACC-P-1SCSI-16BNC-G

1.5u panel for one SCSI to 16 BNC connectors
without cable

432x66x53mm (WxHxD)

· Use with 16/32/63E75 HS tributary
modules

· This panel can also be used in the
Loop-O9400R.

Y-box Panels for 120/100 ohm

Y-Box

(120/100 ohm)

E1 (120 ohm) or T1

(SCSI)

E1 (120 ohm) or T1

(SCSI)

E1 (120 ohm) or T1

(RJ, Wire Wrap, TELCO 50, or TELCO 64)

Loop-ACC-Y-2SCSI-16RJ-G

1u Y-box 16-port panel for two SCSI (E1(120
ohm) or T1) to 16 RJ (E1(120 ohm) or T1)
connectors without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-2SCSI– 16WW-G

1u Y-box 16-port panel for two SCSI (E1(120
ohm) or T1) to 16 Wire Wrap (E1(120 ohm) or
T1) without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-2SCSI­2T50P8-16TE-G

1u 16-port Y-box panel in (E1(120 ohm) or
T1) for two SCSI to two TELCO 50 (E1(120
ohm) or T1) connectors (8 ports per TELCO
connector) without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-2SCSI­2T50P12-16TE-G

1u 16-port Y-box panel in (E1(120 ohm) or
T1) for two SCSI to two TELCO 50 (E1(120
ohm) or T1) connectors (12 ports to the first
TELCO connector, 4 ports to the second
TELCO connector ) without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-2SCSI­1T64P16-16TE-G

1u 16-port Y-box panel in (E1(120 ohm) or
T1) for two SCSI to one TELCO 64 (E1(120
ohm) or T1) connectors (16 ports per TELCO
connector) without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-4SCSI­4T50P8-32TE-G

1u 32-port Y-box panel in (E1(120 ohm) or
T1) for four SCSI to four TELCO 50 (E1(120
ohm) or T1) connectors (8 ports per TELCO
connector) without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9400-R-63TE-G

Loop-ACC-Y-4SCSI­3T50P12-32TE-G

1u 32-port Y-box panel in (E1(120 ohm) or
T1) for four SCSI to three TELCO 50 (E1(120
ohm) or T1) connectors (12 ports to the first
TELCO connector, 12 ports to the second
TELCO connector and 8 ports to the third
TELCO connector) without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9400-R-63TE-G

Loop-ACC-Y-4SCSI­2T64P16-32TE-G

1u 32-port Y-box panel in E1 120 ohm or T1
for four SCSI to two TELCO 64 (E1(120 ohm)
or T1) connectors (16 ports per TELCO
connector) without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9400-R-63TE-G

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

11

Y-box Panels for 75 ohm

Y-Box

(75 ohm)

E1 (120 ohm)

(SCSI)

E1 (120 ohm)

(SCSI)

E1 (75 ohm)

(TELCO 50, or TELCO 64)

Loop-ACC-Y-2SCSI­2T50P8-16E75-G

1u 16-port Y-box panel for two SCSI (E1(120
ohm)) to two TELCO 50 (E1(75 ohm))
connectors (8 ports per TELCO connector)
without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-2SCSI­2T50P12-16E75-G

1u 16-port Y-box panel for two SCSI (E1(120
ohm)) to two TELCO 50 (E1(75
ohm))connectors (12 ports to the first TELCO
connector, 4 ports to the second TELCO)
straight without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9500-R-63TE-G

Loop-ACC-Y-2SCSI­1T64P16-16E75-G

1u 16-port Y-box panel for two SCSI (E1(120
ohm)) to one TELCO 64 (E1(75
ohm))connectors (16 ports per TELCO
connector) straight without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-4SCSI­4T50P8-32E75-G

1u 32-port Y-box panel for four SCSI (E1(120
ohm)) to four TELCO 50 (E1(75
ohm))connectors (8 ports per TELCO
connector) without cable

Use with Loop-O9500-R-16TE-G

Loop-ACC-Y-4SCSI­3T50P12-32E75-G

1u 32-port Y-box panel for four SCSI (E1(120
ohm)) to three TELCO 50 (E1(75
ohm))connectors (12 ports to the first TELCO
connector, 12 ports to the second TELCO
connector and 8 ports to the third TELCO
connector) without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9500-R-63TE-G

Loop-ACC-Y-4SCSI­2T64P16-32E75-G

1u 32-port Y-box panel for four SCSI(E1(120
ohm)) to two TELCO 64 (E1(75
ohm))connectors (16 ports per TELCO
connector) without cable

Use with Loop-O9500-R-32TE-G or
Loop-O9500-R-63TE-G

Y-Box (All Y-Box are RoHS compliant)

Loop-VV-B-G

1 for 1 protection Y-Box with BNC connectors
(4-E1)

Use with Loop-O9500-R-4E1-BNC-G

Loop-VV-R-G

1 for 1 protection Y-Box with RJ48C connectors
(16-E1)

Use with Loop-O9500-R-4E1-RJ-G

Loop-VV-T-G

1 for 1 protection Y-Box with RJ48C connectors
(16-T1)

Use with Loop-O9500-R-4T1-G

Conversion Cables (All conversion cables are RoHS compliant)

Loop-ACC-CAB-SCSI68M-200­1SCSI68M-G

SCSI 68 pin/Male to SCSI 68 pin/Male
Extension Cable Length:200cm

Used in Loop-O9500-R Y-box panels and
conversion panels

Loop-ACC-CAB-DB44M­100-2DB25F-1DB09F-DB

DSUB-44 pin/Male to two DSUB-25
pin/Female- one DSBU-9 pin/Female
Length 100cm

Used in Loop-O9500-R-8RS232-DB-G
Loop-O9500-R-8DBRA-DB-G plug-in card

Loop-ACC-CAB-DB25M-30-1M
34F

DSUB-25pin/Male to M34/Female V.35
Conversion cable
Length: 30 cm

Used in Loop-O9500-R-6V35A-G plug-in
card

Loop-ACC-CAB-DB25M-30-1D
B37F

DSUB-25pin/Male to DSUB-37/Female
RS449 Conversion cable Length: 30 cm

Used in Loop-O9500-R-6V36A-G and
Loop-O9500-R-6R449A-G plug-in cards

Blank Panels

30.001397.A00LF

Blank panel for CPU slot

30.001076.A00LF

Blank panel for power supply slots

Same as that used on O9400R.

30.001077.A00LF

Blank panel for High-speed slots (Slots 1~4)

Same as that used on O9400R.

30.001027.A00LF

Blank Panel for Low-speed slots (Slots
11~16)

Same as that used on AM3440-A.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

12

For 4E1 and 3E1 card:

 Where cc is used to select connector:

cc =

Description

Notes

RJ

RJ48C connector

BNC

BNC connector

For 8UDTEA card:

 Where opm is used to select 8UDTEA functions:

opm =

Description

DCE

Support RS232/RS422/RS485 DCE interface which is software configurable

TS

Support Terminal Server Function and DCE

OMNI

Support Omnibus Function and DCE

CPT

Support Clock Pass Through function and DCE

TSOMNI

Support Terminal Server, Omnibus Function and DCE

HD

Support RS232/RS422/RS485 DCE interface with Full- and Half-Duplex modes

TSHD

Support Terminal Server Function and DCE with Full- and Half-Duplex modes

OMNIHD

Support Omnibus Function and DCE with Full- and Half-Duplex modes

TSOMNIHD

Support Terminal Server, Omnibus Function and DCE with Full- and Half-Duplex
modes

Feature Activation License

Description

Loop-AM3440-8UDTEA-UPGR-TS

Feature Activation License for AM3440 8UDTE card to support Terminal Server
function

Loop-AM3440-8UDTEA-UPGR- OMNI

Feature Activation License for AM3440 8UDTE card to support Omnibus function

Loop-AM3440-8UDTEA-UPGR-CPT

Feature Activation License for AM3440 8UDTE card to support Clock Pass
Through function

Loop-AM3440-8UDTEA-UPGR-TSOM
NI

Feature Activation License for AM3440 8UDTE card to support Terminal Server
function and Omnibus function

Loop-AM3440-8UDTEA-UPGR-HD

Feature Activation License for AM3440 8UDTE card to support Full- and
Half-Duplex modes

Loop-AM3440-8UDTEA-UPGR-TSHD

Feature Activation License for AM3440 8UDTE card to support Terminal Server
function with Full- and Half-Duplex modes

Loop-AM3440-8UDTEA-UPGR-OMNI
HD

Feature Activation License for AM3440 8UDTE card to support Omnibus function
with Full- and Half-Duplex modes

Loop-AM3440-8UDTEA-UPGR-TSOM
NIHD

Feature Activation License for AM3440 8UDTE card to support Terminal Server
function and Omnibus function with Full- and Half-Duplex modes

For 1FOMB Card:

 where opt is used to select optical module type:

opt =

Description

Notes

SAA

single optical module with dual uni-directional fiber, 1310 nm,
SC optical connector, 30 km- S1.1 physical layer*

 Use 2 fibers
 * ITU-T Rec G.957 application

code

SBB

single optical module with dual uni-directional fiber, 1310 nm,
SC optical connector, 50 km - L1.1 physical layer*

SCC

single optical module with dual uni-directional fiber, 1310 nm,
FC optical connector, 30 km - S1.1 physical layer*

SDD

single optical module with dual uni-directional fiber, 1550 nm,
SC optical connector, 20 km - S1.2 physical layer*

SEE

single optical module with dual uni-directional fiber, 1550 nm,
SC optical connector, 100 km - L1.2 physical layer*

SSM

single optical module with single bi-directional fiber (master),
1310 nm transmit and 1550 receive, SC optical connector,
30 km reach - S1.1/ S1.2 physical layer*

 1310 nm from master to slave
 Order SSM to use with SSS
 Use 1 fiber
 * ITU-T Rec G.957 application

code

SSS

single optical module with single bi-directional fiber (slave),
1310 nm receive and 1550 transmit, SC optical connector,
30 km reach - S1.1/ S1.2 physical layer*

 1550 nm from slave to master
 Order SSS to use with SSM
 Use 1 fiber
 * ITU-T Rec G.957 application

code

NOTE: For other special optical modules, please contact your nearest Loop sales representative.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

13

For 8-channel 2W/4W E&M card:

 Where x is used to select all of voice card signaling bits. If this option is not required, omit the x field in the ordering code.

8EM

x =

Description

Note

E

Follows ETSI signaling bits

A

Follows ANSI signaling bits

Jumper selectable for all channels

R

Reverse for ON-HOOK and OFF-HOOK signaling bits
exchange

AR

Follows ANSI signaling bits and reverse bit

S

Follows customer‟s special bit or function assignment

S4

Disable the function of the test button

S5

Forcing all ports to be OFF-HOOK when an alarm occurs

S6

Forcing all ports to be ON-HOOK when an alarm occurs

Note:

1. For S (customer„s special bit), please contact your nearest Loop sales representative.

2. If x is not selected from table above, the default setting for signaling bits is ETSI and for trunk condition is ON-HOOK.

For 12/24-channel FXS card:

 Where sn is used to select special function. If this option is not required, omit the sn field in the ordering code.

sn =

Description

Note

sn = omit

FXS Loop Feed = -48 Vdc with 25 mA current limit; alarm tone enable;
normal ring

S1

FXS Loop Feed = -48 Vdc with 35 mA current limit

S4

Remove alarm tone

S5

Double ring tone transmit

Note: For sn (special function), please contact your nearest Loop sales representative.

 Where pt is used to select the following functions.

pt=

Description

Note

PWR

For AM3440-A with -48Vdc (SD, S5), or -125Vdc (SD125) power modules
For AM3440-B/C with -48Vdc (SDB), or AC (SAB) power modules

PWRIE1613

For AM3440-A with -48Vdc (S5) power complied with IEEE1613 standard
For AM3440-C with -48Vdc (SDB) power complied with IEEE1613 standard

For AM3440-A/C

24

For AM3440-A with -24Vdc (S524) power module

Only for 12/24-channel
FXS

For Magneto Card:

 Where x is used to select version type:

x=

Description

Note

16

16 Hz ring generator

20 Hz is the general setting for all
MAG cards. For special settings
(16, 25, 50), please specify your
need by filling in the x option.

20

20 Hz ring generator

25

25 Hz ring generator

50

50 Hz ring generator

For C37.94 Card:

 Where LSFOM is to select LS-Fiber Optical Module option, each module has 5 letters.

LSFOM

Description

Notes

Code

Mode

Data Rate

Wave Length

Distance

Connector

Code

Description

Code

Code

Code

Code

ZHHTT

Z

Multi-mode

H

155 M

H

820nm

T

2km

T

ST

connector

1 * 8

Separate

transceiver

& receiver

QHATT

Q

Multi-mode

H

155 M

A

850nm

T

2km

T

ST

connector

1 * 9

NFB3T

N

Single mode

F

125 M

B

1310nm

3

30km

T

ST

connector

QFBTT

Q

Multi-mode

F

125 M

B

1310nm

T

2km

T

ST

connector

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

14

NHC2S

N

Single mode

H

155 M

C

1550nm

2

20km

S

SC

connector

NHCUS

N

Single mode

H

155 M

C

1550nm

U

100km

S

SC

connector

Firmware Upgrade

Loop-O9500-card

-FWUPGR

Firmware Upgrade and Warranty Renewal.
The Customer whose warranty has lapsed or desire to have a firmware
upgrade can purchase this option.
This will upgrade the firmware to the most current version and provide
an additional 12 months of support.

For available card types, please
refer to the table below for detail
information.

For Firmware Upgrade:

 Where card is used to select card type:

card=

Description

Note

CC4

CPU card

16TE

16 E1 (120 ohm) or 16 T1 software programmable plug-in card

32TE-G

32 E1 (120 ohm) or 32 T1 software programmable plug-in card

63TE

63 E1 (120 ohm) or 63 T1 software programmable plug-in card

16E75

16 E1(75 ohm) plug-in card

R-32E75

32 E1(75 ohm) plug-in card

63E75

63 E1(75 ohm) plug-in card

B16

STM-1/4 (OC-3/12) software configurable p lug-in card without SFP
(mini-GBIC) optical modules

9EoS4NSW

1 GbE or 8FE software programmable plug-in card without L2 switch

9EoS4SW

1GbE and 8FE plug-in card with L2 switch

3TE3

3 T3 or 3 E3 software programmable interface plug-in card

7FOM

7-port Fiber Optical Interface with 7 SFP housings (SFP not included)

1FOMB

1-port Fiber Optical Interface

RTB

RTB card

3E1

3-port E1 card

3T1

3-port T1 card

2GH

2-port G.SHDSL card

4GH

4-port G.SHDSL card

TDMoE

TDMoE card

12/24FXS

12/24 FXS card

12/24FXO

12/24 FXO card

8E&M

8-port E&M card

8RS232

8 RS232 card

8DBRA

8 Data Bridge A card

Conference

Conference card

OCUDPA

8 channel OCU DP card

6V.36A

6-port V.36 card

6V.35A

6-port V.35 card

X.21/V.11

6-port X.21 card

6EIA530/6RS449

6-port EIA530/RS449 card

Example:
Loop-O9500-R-CHA-G, Loop-O9500-R-CBA-G, Loop-O9500-R-FANA-G, Loop-O9500-R-CC4-G,
Loop-O9500-R-63TE-G, Loop-O9500-4E1-RJ, Loop-O9500-R-4GH, Loop-O9500-R-SD48:

For model O9500 6U height Rack chassis with one CPU card, one connect board, and one Fan board, one 63E1 software
programmable interface plug-in card, one 4-channel E1 interface with RJ48C connectors, one 4-channel G.SHDSL

plug-in card (1-pair), and a single –48 Vdc power module.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

15

Loop-O9500R SDH/SONET IMAP Product Specification

High Speed or High Density Tributary Modules

Max. Number of Aggregate Lines on Controller Modules

4 STM-1/4 (OC-3/12) aggregate optical lines or
4 STM-1/4/16 (OC-3/12/48) aggregate optical lines (CC16)

Max. Number of HS Tributary Lines for CC4 Controller Module

1 STM-4 (OC-12) tributaries without protection

6 STM-1 (OC3) tributaries without protection

12 E3/T3 tributaries without protection

252 E1/T1 tributaries without protection

4 GbE +32 FE EoS with build in L2 switch tributaries without protection

4 GbE or 32 FE EoS without build in L2 switch tributaries without protection

28 FOM tributaries without protection

Max. Number of HS Tributary Lines for CC16 Controller Module

4 STM-4 (OC-12) tributaries without protection

8 STM-1 (OC3) tributaries without protection

12 E3/T3 tributaries without protection

252 E1/T1 tributaries without protection

4 GbE +32 FE EoS with build in L2 switch tributaries without protection

4 GbE or 32 FE EoS without build in L2 switch tributaries without protection

8 GbE EoS with build in L2 switch tributaries without protection with backplane capacity up to 2.5G
28 FOM tributaries without protection

T1 Interface

Line Rate

1.544 Mbps  32 ppm

Jitter

ITU G.824

Line Code

AMI/B8ZS

Framing

Unframed with a framing monitor on
receiving side

Input Signal

ITU G.703 DSX-1 0dB to –6dB

Impedance

100 ohm twisted pair

Output
Signal

ITU G.703 DSX-1 w/short (0-110, 110-220,
220-330, 330-440, 440-550, 550~660 (feet)

Connector

SCSI-II 68-pin
One connector for 16 ports
Two connectors for 32 ports
Four connectors for 63 ports

Output
Mask

Bellcore GR-499-core

E1 Interface

Line Rate

2.048 Mbps  50 ppm

Jitter

ITU G.823

Line Code

AMI/HDB3

Framing

Unframed with a framing monitor
on receiving side

Input Signal

ITU G.703

Impedance

75 ohm coax/120 twisted pair

Output Signal

ITU G.703

Connector

SCSI-II 68-pin
One connector for 16 ports
Two connectors for 32 ports
Four connectors for 63 ports

Output Mask

ETS 300 689 Sec.4.2.1.2 ITU G.703

E3 Interface

Line Rate

34.368 Mbps ± 20ppm

Jitter

ITU G.823

Line Code

HDB3

Framing

Unframed, G.751

Input Signal

ITU G.703

Impedance

75 ohm coax

Output Signal

ITU G.703

Connector

BNC connector

Output Mask

ETS 300 689 Sec.4.2.1.2 ITU G.703

T3 interface

Line Rate

44.736 Mbps ± 20ppm

Jitter

ITU G.824

Line Code

B3ZS

Framing

Unframed, M13/Mx3 (unframed
E1/T1), G.747

Input Signal

ITU G.703

Impedance

75 coax

Output Signal

ITU G.703

Connector

BNC connector

Output Mask

Bellcore GR-499-core

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

16

Fast Ethernet interface

Line Rate

10/100M bps

Mapping

n x VC12, n x VC3, or n x VC4

Layer2 Protocol

RSTP (802.1W),

Connector

RJ45

VLAN (802.1Q, 802.1P)

Flow Control (802.3X)

MSTP (802.1S)

IGMP Snooping

QoS

Prrocess Protocol

VCAT, GFP(G.7041), LAPS,
LCAS(G.7042), and non-LCAS

Gigabit Ethernet interface

Line Rate

10/100/1000Mbps

Mapping

n x VC12, n x VC3, or n x VC4

Layer2 Protocol

RSTP (802.1W),

Connector

RJ45

VLAN (802.1Q, 802.1P)

Flow Control (802.3X)

MSTP (802.1S)

IGMP Snooping

QoS

Process Protocol

VCAT, GFP(G.7041), LAPS,
LCAS(G.7042), and non-LCAS

7 FOM

Port number

7

Source

Laser

Line Code

Scrambled NRZ

Wavelength

1310  50 nm, 1550  40 nm

Optical Line Rate

38.84Mbps

Connector

SFP housing with LC type

Reach

2~240 Km
(For more detail, please refer to the SFP table
below)

Protection

1+1 Line Protection

1FOMB

Source

MLM Laser

Line Code

Scrambled NRZ

Wavelength

1310  50 nm, 1550  40 nm

Detector Type

PIN-FET

50 Km reach

NOTE: Longer or shorter, 15 to 120Km, on special order.

Diagnostics Test

Optical Fiber

Local and remote loopbacks

E1 Link

Local and remote loopback, send test pattern

Low Speed Tributary Modules

Network Line Interface – 4E1

Line Rate

2.048 Mbps  50 ppm

Framing

ITU G.704

Line Code

AMI or HDB3

Connector

BNC/RJ48C

Input Signal

ITU G.703

Electrical

75 ohm Coax/120 ohm twisted pair

Output Signal

ITU G.703

Jitter

ITU G.823

Network Line Interface - 4T1

Line Rate

1.544 Mbps  32 ppm

Output Signal

DSX1w/0, -7.5, -15 dB LBO

Line Code

AMI or B8ZS

Framing

D4/ESF (selectable)

Input Signal

DSX-1 0 dB to -30 dB w/ALBO

Connector

RJ48C

Network Line Interface - 3E1

Line Rate

2.048 Mbps  50 ppm

Framing

ITU G.704

Line Code

AMI or HDB3

Connector

BNC/RJ48C

Input Signal

ITU G.703

Electrical

75 ohm Coax/120 ohm twisted pair

Output Signal

ITU G.703

Jitter

ITU G.823

Function

Support DS0-SNCP

Network Line Interface – 3T1

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

17

Line Rate

1.544 Mbps  32 ppm

Framing

D4/ESF

Line Code

AMI/B8ZS

Output Signal

DSX-1 w/0, -7.5, -15 dB LBO

Input Signal

DSX-1 0dB to -30dB w/ALBO

Connector

RJ48C

Jitter

AT&T TR 62411

Pulse Template

AT&T TR 62411

Data Rate

n * (64) Kbps (n = 1 to 24)

Surge Protection

FCC Part 68 Sub Part D

G.shdsl Line Interface (2GH/4GH)

Number of ports

2 or 4

Line Rate for 4-channel G.shdsl

n x 64Kbps (n= 3 to 31)

Line Rate for 2-channel G.shdsl

n x 64Kbps (n= 3 to 15)

Line Code

16-TCPAM, full duplex with adaptive echo cancellation

Connector

RJ45

Electrical

Unconditioned 19-26 AWG twisted pair

Sealing current

Max. 20 MA source current

Clock Source

From System, Line

Diagnostic Test

G.SHDSL Loopback: To-LINE, To-bus
BERT: QRSS

DTE(X.21/V.11) Interface (6X21A)

Data Port

Up to six 6-port DTE X.21 card; 1-port DTE X.21 card

Data Rate

56 or 64 Kbps, n = 1 to 32

Connector

DB15

DTE (V.35/ V.36) Interface (6V35A/6V36A)

Data Port

Up to six 6-port DTE V.35/ V.36 cards

Data Rate

56 or 64 Kbps, n = 1 to 32

Connector

For V.35 card: DB25S (optional conversion cable DB25S to M34 connector)
For V.36 card::DB25S (optional conversion cable DB25S to DB37 connector)

DTE (EIA530/RS449) Interface (6 EIA530A/6RS449A)

Data Port

Up to six 6-port EIA530 DTE card

Data Rate

56 or 64 Kbps, n = 1 to 32

Connector

DB25S (optional conversion cable DB25S male to DB37 female connector for RS449)

C37.94 Interface (1/4C37)

Source

LED

Wavelength

820nm 2Km reach

Connector

ST

Optical Budget

50 Mircon core/9.6 db

62.5 Mircon core/ 15db

Dry Contact I/O card (8DC)

Inputs -

Outputs -

8-channel

2-port per card, 4-pair per port

8-channel

8-pair per card

Connector

RJ45

Connector

Screw type

Internal Resistance

1 K

Initial Insulation Resistance

Min. 100M ohm (at 500 Vdc)

Activation Current

3 ma

Max. Current

5A

Deactivation Current

1.5 ma

Max. Voltage

100 Vdc, 250 Vac

Allowable Current

4 ma

Dry Contact Type B Interface

Inputs -

Outputs -

8-channel

2-port per card, 4-pair per port

8-channel

8-pair per card

Connector

RJ45

Connector

Screw type

Internal Resistance

100 K

Initial Insulation Resistance

Min. 1000M ohm (at 500 Vdc)

Activation Current

3 ma

Max. Current

2A

Deactivation Current

1.5 ma

Max. Voltage

220 Vdc, 250 Vac

Allowable Current

4 ma

Co-directional (G.703) card

Interface

ITU G.703 64 Kbps co-directional interface

Connector

120ohm, RJ48

Line Distance

Up to 500 meters

Loopback

DTE Payload Loopback, Local Loopback

Router-B Interface (RTB)

Number of ports

8 LAN ports, Max. 64 WAN ports. Each WAN port has data rate n x 64K bps, 1 n 32
( 8Mbps for total of all 64 WAN ports

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

18

Physical Interface

10/100 BaseT x 8

Connector

RJ45

Routing protocol

RIP-I, RIP-II, OSPF, Static

Supporting Protocols

PPP (IPCP/BCP), MLPPP, HDLC, Frame Relay, and Cisco compatible HDLC, NAT/NAPT,
DHCP

Diagnostic

Ping, Trace route

QoS

Rate limit

DTE(RS232-X.50 mux. 8-port) Interface (RS232)

Data Port

Up to twelve 8-port RS232 cards

MUX

Maximum 5 subrate port per 64K bps

Data Rate

Asynchronous
Mux mode

0.6K, 1.2K, 2.4K, 4.8K, 9.6K

Independent mode

0.6K, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K, 38.4K

Synchronous
Mux mode

0.6K, 1.2K, 2.4K, 4.8K, 9.6K

Independent mode

0.6K, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K, 38.4K, 48K, 64K

Card Type

Port Number

1 2 3 4 5 6 7 8 Eight RJ48

Async

Async

Async

Async

Async

Async

Async

Async

Two DB44 + Two RJ48

Async/Sync

Async/Sync

Async

Async/Sync

Async/Sync

Async

Async

Async

Connector
Eight RJ48 (port 1 to port 8)

DB44 (port1,port2,port3), DB44 (port4,port5,port6), RJ48 (port7) and RJ48(port8)

Conversion Cable

A three-into-one conversion cable adapts the DB44 connector to 3 connecters (one DB9S and two
DB25S)

Electrical

RS232 Interface, DCE

Data Bridge Card

Data Port

Up to twelve 8-port data bridge card (each card supports up to 120 DS0 for data bridge)

Feature

20 end points per multi-drop circuit to into a logical ended 56K or 64K channel
Per port supports bridge function to N remote Trib. Site (N=1~20)

Data Rate

Asynchronous

Support to receive 1200 to 19200 bps asynchronous data via oversampling
channel

Bridge function

one port with one DS-0 to many (Maximum is 20 for remote Tributary data box )

20 drops for each DS0 to remote Tributary data box and 8 ports RS232 shared the 128 channels.

8UDTEA (RS232/RS422/RS485) Universal Data Interface Card

Data Port

8 port UDTE card

ASYNC Data Rate

200,300, 600, 1200, 2400, 4800, 9600, 19.2K, 38.4K, 57.6K, 115.2K, 128K bps by
oversampling

Connector

RJ48C

Interface

DCE only

Flow Control (RS232 only)

Hardware (RTS and DTR), none

Loopback function

DTE to DTE loopback;

DTE to Line loopback

Voice Card 12 MAG (Magneto)

Connector

Twelve RJ11

Alarm Conditioning

CGA busy after 2.5 seconds of LOS, LOF

Encoding

A-law or -law, user selectable together for all

Impedance

Balanced 600 or magneto telephone impedance match

Longitudinal Conversion Loss

> 46dB

Gain Adjustment

-21 to +10 dB / 0.1dB step transmit & receive

Signal/ Distortion

> 25dB with 1004 Hz, 0dBm input

Frequency Response

- 0.25 to -1 dB from 300 to 3400 Hz, coincide with ITU-T G.712

Idle Channel Noise

Max. –65 dBm0p

Min Detectable Ringing Voltage

16 Vrms

Ringing Detectable Across

L1 and L2 (Tip and Ring), L1 and GND (Tip and GND)

Ringing Generation

Voltage: 76 Vrms (sine wave)

Frequency: 20Hz (with optional choices of 16, 25, 50 Hz)

Cadence:

1. Normal:

Ring after crank

2. PLAR ON:

-Single Ring Type: ring for 2 sec. and stop, or ring for 4 sec. and stop

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

19

-Continuous Ring Type: 1 sec on 2 sec off, or 2 sec on 4 sec off

Ringing Send Across

L1 and L2 (Tip and Ring), L1 and GND (Tip and GND)

Signaling

Magneto MRD(Ringing across Tip and Ring or Tip and Ground)

Signaling Bit A,B,C,D

Programable

Signaling is carried transparently by the digitizing process.

Use Magneto card default setting for communications between magneto telephones
Use Magneto card PLAR mode setting for communications between a magneto telephone and a regular telephone

Voice Card- E&M

Connector

Eight RJ45

Alarm Conditioning

CGA busy after 2.5 seconds of LOS, LOF

Encoding

A-law or -law, user selectable together for all

Impedance

Balanced 600 or 900 ohms

Longitudinal Conversion Loss

> 46dB

Longitudinal Balance

> 63dB

Gain Adjustment (Per-port setting)

-10 to +7 dB / 0.1dB step for transmit (D/A) gain

-10 to +14 dB / 0.1dB step for receive (A/D) gain

I/O voice power range

A/D digital input level: -66 dBm (0.00039 Vrms) ~ + 3 dBm (1.09 Vrms)
D/A analog output level: -66 dBm (0.00039 Vrms) ~ + 7 dBm (1.74 Vrms)

Signal/Distortion

> 25dB with 1004 Hz, 0dBm input

Frequency Response

- 0.25 to -1 dB from 300 to 3400 Hz

Carrier connection

Side A ( exchange side) and Side B (carrier side) setup by side switch

Idle Channel Noise

Max. –65 dBm0p

wire mode

2 wire and 4 wire (programmable)

Signaling

Type 1, Type 2, Type 3, Type 4, and Type 5, Transmit only (programmable)

Modems

Full compatibility with V.90 modems

All in-band signaling tones are carried transparently by the digitizing process.

Customer is responsible for in-band signaling compatibility between a telephone and a switch, or between a PBX and a
switch.

Voice Card (12FXS, 12FXO, 24FXS, 24FXO)

12 FXS/FXO Connector

Twelve RJ11

24 FXS/FXO Connector

One RJ21X femail connector

Alarm Conditioning

CGA busy after 2.5 seconds of LOS, LOF

Encoding

A-law or -law, user selectable together for all

AC Impedance

Balanced 600 or 900 ohms (selectable together for all)

Longitudinal Conversion
Loss

> 46dB

Cross talk measure

Max -70dBm0

Gain Adjustment

FXS: -21 to +3 dB / 0.1dB step transmit & receive
FXO: -21 to +10 dB / 0.1dB step transmit & receive

Signal/ Distortion

> 25dB with 1004 Hz, 0dBm input

Frequency Response

- 0.25 to -1 dB from 300 to 3400 Hz, coincide with ITU-T G.712

Idle Channel Noise

Max. –65 dBm0p

Variation of Gain

±0.5dB

FXO

Ringing REN

0.5B (AC)

Detectable Ringing

25 Vrms

Loop Resistance

 1800 

DC Impedance (ON-HOOK)

> 1M 

DC Impedance (OFF-HOOK)

235  @ 25mA feed

90  @ 100mA feed

FXS Loop Feed

-48Vdc with 25mA current limit per port

Jumper Selectable: 25mA(default=25mA), 30mA, or 35mA(sn=S1)

FXS Signalling

Normal / PLAR: Private Line Auto Ring down

FXS Ringing

1 REN at 5K meters per port

16.7Hz, 20Hz, 25Hz, 50Hz, user selectable for all ports

Jumper selectable: 64, 76, and 85 Vrms (triangle wave), (default= 76 Vrms for Ring Voltage)

2 sec on 4 sec off, or 1 sec on 2 sec off optional for PLAR ON

FXS Tone

Alarm Tone: 480Hz/620Hz/-24dBm
Ring Back Tone: 440Hz/480Hz/-19dBm

FXS functions

Basic functions: Bettary Reverse, Loop Star, PLAR
Optional functions: PLAR ON/PLAR bit programmable, Ground Start, and/or Meter Pulse.

Signaling Bit A,B,C,D

Programable bit

 All in-band signaling tones are carried transparently by the digitizing process.

 Customer is responsible for in-band signaling compatibility between a telephone and a switch, or between a PBX and a

switch.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

20

OCU/DP Interface

Ports

8 Ports for each card

Line Status Indicator

Per Port 1 dual color LED; Red for LOS, Green for SYNC

Network Connector

RJ48S

Electrical network connection

Tip/Ring and Tip1/Ring1

Transmit Source Impedance

135 Ohms +/- 20%

Receive Input Impedance

135 Ohms +/- 20%

Receiver Sensitivity/ Dynamic Range

0 to 43 dB loop loss at 72K & 56K
0 to 34 all other rates Automatic line equalization

Pulse Amplitude

+/- 1.5 V (+/- 10%) peak, all rates except 9.6k
+/- 0.75 V (+/- 10%) peak at 9.6k
Bipolar Return to zero, 50% duty cycle

Sealing Current

Typically 16 mA DC

Operating Modes

4-wire DDS
Switched 56 support is optional.

Circuit Rates

SYNC: 2.4, 4.8, 9.6, 19.2, 56, 72kbps (64k) clear channel
Conforms with AT&T Pub 41458

Encoding and decoding rules

Use bipolar violation to indicate control information: Idle, out of service,
Zero substitution using unframed loops

Maintenance control

Fault and Performance

DSU Non-latching loop-back code (for 2.4, 4.8, 9.6, 19.2, 56k circuit
rate)
DSU Latching loop-back (TIP, LSC, LBE, FEV) code (for 72k circuit
rate)

Machine maintenance OCU/DP card operation:
Payload loopback
OCU loopback
Local loopback
Bi-directional loopback
V.54 remote loopback code
Custom defined remote loopback code
BERT test support all ones, all zeros, 2047, 511, 63 pattern.
LOS, OOS, ES, SES and UAS alarm.
Current, last 96 registry and 7 days performance storage.

Environment

Operating: 0-50°C
Storage: -25-75°C
Humidity: Up to 90% RH non-condensing

Specification Standard

ANSI T1.410; AT&T Pub 62319, AT&T Pub 62310, ITU-T V.54

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

21

Conference Card

RS232 Interface

Data Port

2-ports per card

ASYNC Data Rate

300, 600, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K

SYNC

not supported

Connector

Two DB9, DCE, female

FXS Voice Interface

Connector

Two RJ11

Encoding

G.723

Longitudinal Conversion Loss

> 46dB

Cross Talk Measure

Max -70dBm0

Gain Adjustment

transmit (D/A) gain 0, +6dB
receive (A/D) gain +6, 0, -6dB

Signal/ Distortion

> 25dB with 1004 Hz, 0dBm input

Idle Channel Noise

Max. –65 dBm0p

Loop Resistance

Max 1800 ohm

FXS Loop Feed

-48 Vdc with 25mA current limit

FXS Ringing

2 REN

20Hz

76 Vrms

2 sec on / 4 sec off for 1 min, or 1 sec on / 2 sec off for 30 sec (programmable)

Signaling

Loop Start, DTMF

E&M Voice Interface

Connector

Two RJ45

Encoding

G.723

Impedance

Balanced 600 ohms

Longitudinal Conversion Loss

> 46dB

Gain Adjustment

transmit (D/A) gain 0, +6dB
receive (A/D) gain +6, 0, -6dB

Signal/Distortion

> 25dB with 1004 Hz, 0dBm input

Idle Channel Noise

Max. –65 dBm0p

Carrier Connection

Side A = exchange side, Side B = carrier side (Jumper selectable)

Phone line power+12V

Type P (Jumper enable)

Operation mode

Master, standard (Jumper selectable)

Wire Mode

4 wire

Signaling Type

Type 1, Type 4, and Type 5 (Jumper selectable)

EM Ringing
Single rainging for 5 sec only

2 sec on / 4 sec off for 1 min, or 1 sec on / 2 sec off for 30 sec
(programmable)

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

22

TDMoE

Combo Gigabit Ethernet(GbE) Interface

Number of Ports

2

Speed

10/100/1000M bps

Connector

RJ45 for twisted pair GbE, LC for optical GbE, auto detection

Gigabit Ethernet(GbE) Interface

Number of Port

2

Speed

10/100/1000 BaseT

Connector

RJ45

Ethernet Function

Basic Features

MDI/MDIX for 10/100/1000M BaseT auto-sensing

Ping function contained ARP
Per port, programmable MAC hardware address learn limiting (max. MAC table 8192 (8k) entry)
Packet Delay Variation:

- Unframed T1: Up to 340 ms

- Framed T1: Up to 256 ms

- E1:up to 256 ms

- Framed T1 with CAS: Up to 192 ms

Packet Transparency

Packet transparency support for all types of packet types including IEEE 802.1q VLAN and 802.1ad
(Q-in-Q)

QoS

User configurable 802.1p CoS, ToS in out going IP frame

Traffic Control

Ingress packet Rate limiting buckets per port for ethernet port

Supporting Rate-based and Priority-based rate limiting for LAN port
Granularity:

a. From 64 Kbps to 1 Mbps in increments of 64 Kbps
b. From 1 Mbps to 100 Mbps in increments of 1 Mbps
c. From 100 Mbps to 1000 Mbps in increments of 10Mbps

Pause frame issued when the traffic exceeding the limited rate before packet dropped following
IEEE802.3X

Link Aggregation

WAN support link aggregation

Jitter & Wander

PPM: per G.823 Traffic

Standard Compliance

IETF

TDMoIP (RFC5087), SAToP (RFC4553), CESoPSN (RFC5086)

IEEE

802.1q, 802.1p, 802.1d, 802.3, 802.3u, 802.3x, 802.3z, 802.1s, 802.1w, 802.1AX

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

23

EoW with VoIP Technology

Data Networking

Router or Bridge Mode of Operation

Voice Gateway

SIPv2

Session Initiation Protocol Version 2 (RFC3261, 3262, 3263, 3264)

Voice Algorithms

G.711 (A-law and mu-law)

Attenuation

Gain Adjustments

Physical Interfaces

Two RJ-45 Port

Ethernet 100BaseT Interface (IEEE 802.3)

Two RJ-11 FXS Port

For Analog Circuit Telephone Device (Tip/Ring)

Subscriber Line Interface Circuit(SLIC)

Regulatory Compliance

FCC Part

15 Class B

CE

Mark

ICES-003

ESD level

Class B
Air: ± 8Kv
Contact: ± 4Kv

Power Supply

DC

Input Voltage: +5 VDC at 2.0 A Max.

Power Consumption

5 Watts

Indicator Lights

Indicator Lights/LED

Power

Storage Temperature

Storage

Temperature -13°F to 185°F (-25°C to 85°C)

Unit Dimensions

W x H x D

122.5mm x 43.7mm x 92.8mm

Ring Voltage

40 – 55 V

RMS

Configurable

Ring Frequency

10Hz – 40Hz

Ring Waveform

Trapezoidal and Sinusoidal

Max. Ringer Load

3 REN

On-hook/off-hook

Characteristics

On-hook voltage (tip/ring) : -50 V

NOMINAL

Off-hook current : 20 mA min

Terminating Impedance : 600 ohms

System Clock

Clock Source

Internal clock
4 aggregate lines clocks (STM-1/4 (OC-3/12))

External clocks: 2.048MHz or 2.048Mbps for STM-1/4, 1.544M bps for OC-3/12

Management Interface

LED

Multi colors

Console

Electrical: RS232

Connector: DB9S (DCE)

Protocol: Menu driven VT-100

SNMP

SNMPv1, v3 (RFC1213, RFC2863, RFC1493)

OSS interface

10/100BaseT FE (IEEE 802.3u )

NE/NE interface

DCC/HDLC/Ethernet type II

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

24

Alarm Input/Output

Inputs

Outputs

Channel

4

Channel

4

Connector

RJ45

Connector

RJ45

Internal Resistance

1K

Initial Insulation Resistance

Min. 100M ohm (at 500Vdc)

Activation Current

3 ma

Maximum switching voltage

110 V DC, 125 V AC

Deactivation Current

1.5 ma

Allowable Current

4 ma

Diagnostics

XCU card

Loopback Test

Local loopback, payload loopback, line loopback

BERT Test

Optical interface

Direction: to optical lines

B155/622 card

Loopback Test

Local loopback, payload loopback, line loopback:

BERT Test

Optical interface

Direction: to optical lines

E1/T1 card

Loopback Test

Local loopback, line loopback:

BERT Test

E1/T1 interface

Direction: to optical lines, to tributary lines

7 FOM card

Optical Fiber

Local and remote loopbacks

E1 Test Pattern

To optical direction or backplane direction

Performance Monitor

Performance Reports

Performance Parameters: Error Block (EB), Background Block Error (BBE), Error Second(ES),
Burst Error Second (BES), Severe Error Second (SES), Unavailable Second(UAS)

Alarm History

Alarm History
System Alarm

Alarm Cut Off, Power Loss/Uneqp, Fan Fail, Fan Module Uneqp,
Overheat, TS Sync Loss, Logon and Logout, Optical Port Uneqp, Card In,
Card Out, Card Type Mismatch, Card Port Number Mismatch, Card Fail,
Card Registration, SNCP Switch, MSP Switch, Trib Protection Sync,
Standby
XCU Takeover, Standby Trib Takeover, XCU Sync, SFP Tx Fail, SFP Rx
Fail,
SFP Temperature, LS Protection, LS ID Mismatch

SDH/SONET
Line Alarm

SDH

Line

PI-LOS RS-LOF RS-TIM MS-SD MS-SF MS-AIS
MS-RDI MS-REI B1-BIP B2-BIP

Ho-Path

AU-LOP AU-AIS HP-SD HP-SF HP-UNEQ HP-PLM
HP-TIM HP-RED-P HP-RDI-S HP-RDI-C HP-LOM
HP-REI

Lo-Path

TU-LOP TU-AIS LP-SD LP-SF LP-UNEQ LP-PLM
LP-TIM LP-RDI-P LP-RDI-S LP-RDI-C LP-REI
LP-BIP

SONET

Line

LOS-PI, LOF-S, TIM-S, SD-L , SF-L ,
AIS-L , RDI-L , REI-L UAS, B1-BIP, B2-BIP

STS-Path

LOP-P, AIS-P, SD-P, SF-P, UNEQ-P, PLM-P,
TIM-P, RDI-P-P, RDI-S-P, RDI-C-P, RDI-P-P,
LOM-P, REI-P, B3-BIP-P

VT-Path

LOP-V, AIS-V, SD-V, SF-V, UNEQ-V, PLM-V, TIM-V,
RDI-P-V, RDI-S-V, RDI-C-V, REI-V, BIP-V

Alarm Queue

Contains up to 300 alarm records of latest alarm types, alarm severity, date, and time.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

25

Electrical

DC Power

Single/ Dual power module, -48 Vdc: -36 to -72 Vdc
Single/ Dual power module, 48/125 Vdc: 36 to 140 Vdc, 300 Watts max.
Single/ Dual power module, 125/250 Vdc: 100 to 260 Vdc, 300 Watts max

Physical and Environmental

Dimensions for 6U

Temperature

Humidity

Mounting

Certifications

EMI/EMC

EN55022 Class A, EN55024
FCC Part 15 Class A,

Safety

IEC60950-1, IEC 61850-3, IEEE 1613

Note for IEC 61850-3 and IEEE1613:

(1) The certification only applies to O9500-R with 48Vdc/150W power module
(2) The magento card does not support IEC 61850-3 and IEEE 1613
(3) Use shielding cable with the following modules:

 RS232-X.50 module

 DTE of Conference module

 Input Port of Dry Contact module

 RS232 X.50-8 module

 V.35 module

 V.36/RS449/EIA530 module

 Input Port of Dry Contact B

module

 X.21 module

 SNMP of XCU

 Console port of XCU

Standards Compliance

ITU-T

G.707, G.7041, G.7042, G.775, G.783, G.806, G.823, G.747, X.86, G.664,

ANSI

T1.105, T1.107

IEEE

802.1q (VLAN), 802.1w (RSTP), 802.1s(MSTP), 802.1ad (stack VLAN),

802.3x (flow control), 802.1p (QoS), 802.1AX

* Future option

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

26

Front Panel View of O9500R with CC4 Controller on CHA Chassis

O9500R Hardware Configuration Chart on High Speed Slot and CPU

High Speed Tributary Cards Without Protection (with CC4 Controller)

Plug-in Card

Slot

E1/T1

E3/T3

7FOM

9EoS4SW

Optical (SFP)

FE

GbE

STM-1/OC-3

STM-4/OC12

H
S

TRIB 1

63/32/16

3 7 8 1 2

1

Note 2

TRIB 2

63/32/16

3 7 8 1 2

TRIB 3

63/32/16

3 7 8 1 1

X

TRIB 4

63/32/16

3 7 8 1 1

X

XCU 1

X X X X X 2 2

XCU 2

X X X X X 2 2

Maximum Port

of Each Interface

252

12

28

32 4 10

5

High Speed Tributary Cards With Protection (with CC4 Controller)

Plug-in Card

Slot

E1/T1

E3/T3

7FOM

9EoS4SW

Optical (SFP)

FE

GbE

STM-1/OC-3

STM-4/OC12

H
S

TRIB 1

63/32/16

3 7 8 1 2

1

TRIB 2

63/32/16 (B)

3(B)

7 (B)

8 (B)

1 (B)

2 (B)

1 (B)

TRIB 3

63/32/16

3 7 8 1 2

X

TRIB 4

63/32/16 (B)

3(B)

7 (B)

8 (B)

1 (B)

2 (B) X XCU 1

X X X X X 2 2

XCU 2

X X X X X

2 (B)

2 (B)

Maximum Port

of Each Interface

126 6 14

16 2 6

3

(B) backup/protection

Note 2: To set up STM-4/OC12 without protection, put only one optical-module-with-protection in either TRIB 1 or TRIB2 slot.

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

27

Front Panel View of O9500R with CC16 Controller on CHAA Chassis

High Speed Tributary Cards Without Protection (with CC16 Controller)

Plug-in Card

Slot

E1/T1

E3/T3

7FOM

9EoS4SW

4GESW*

Optical (SFP)

FE

GbE

GbE

STM-1/

OC-3

STM-4/

OC12

STM-16/

OC48

H
S

TRIB 1

63/32/16

3 7 8 1 X 2 1 X TRIB 2

63/32/16

3 7 8 1 X 2 1 X TRIB 3

63/32/16

3 7 8 1 4 2 1

X

TRIB 4

63/32/16

3 7 8 1 4 2 1

X

XCU 1

X X X X X X 2 2 2

XCU 2

X X X X X X 2

2

2

Maximum Port

of Each Interface

252

12

28

32 4 8

12 8 4

High Speed Tributary Cards With Protection (with CC16 Controller)

Plug-in Card

Slot

E1/T1

E3/T3

7FOM

9EoS4SW

4GESW*

Optical (SFP)

FE

GbE

GbE

STM-1/

OC-3

STM-4/

OC-12

STM-16/

OC-48

H
S

TRIB 1

63/32/16

3 7 8 1 X 2 1 X TRIB 2

63/32/16 (B)

3(B)

7 (B)

8 (B)

1 (B) X 2 (B)

1 (B)

X

TRIB 3

63/32/16

3 7 8 1 4 2 1

X

TRIB 4

63/32/16 (B)

3(B)

7 (B)

8 (B)

1 (B)

4 (B)

2 (B)

1 (B)

X

XCU 1

X X X X X X 2 2 2

XCU 2

X X X X X X 2 (B)

2 (B)

2 (B)

Maximum Port

of Each Interface

126

6

14

16 2 4 6 4

2

(B) backup/protection

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

28

Application Illustration

The O9500R can be configured as either a Terminal Multiplexer (TM), a Linear Add/Drop Multiplexer (ADM), or
as a cross-connect (DACS) within the same enclosure. With UPSR/SNCP and MSP (1+1) protection, the
O9500R can easily provide a well-protected transmission path and integrated access in various applications as
shown below.

SDH Backbone

STM-16 (OC-48)

Ethernet

Backbone

`

STM-1/4/16

(OC-3/12/48)

Ring

STM-1 (OC-3)

Ring

` `

Loop-iNMS

E1/T1
E3/T3

Ethernet

Ethernet

Switch

xDSL, IP-

DSLAM

VPN Router

PBX

FXS/FXO

PC LAN

STM-1/4/16

(OC-3/12/48)

Links

E1/T1
E3/T3

Ethernet

O9100

O9100

O9500R

O9500R

O9500R

O9500R

O9400R

O9400S

O9100

O9100

C5500

V4200-9

AM3440

E1200

E1500

H3300 G.SHDSL

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

29

O9500R with 3E1 cards now can do DS0-SNCP Protection. Below is the DS0-SNCP Protection
Architecture.

The diagram below illustrates the DS0 signal path in normal condition. The DS0 signal travels on both primary path and
secondary path. The primary path is configured to be the working path and the secondary path is configured to be the
protection path.

Secondary Path

E1

E1

1 * DS0 Input1 * DS0 Output

1 * DS0 Output1 * DS0 Input

E

O9500R

E1

C

O9500R

O9500R

(Protection Path)

Node A

O9500R

Node B

Protected DS0

3E1

Card

3E1

Card

O9500R

E1/V.35

Card

Node B Node A

Node B

Node A

Node B

Node A

Secondary Path

The diagram below illustrates the DS0 signal path in faulty condition. When the primary path is broken, the secondary path
will automatically become the working path.

E1

E1

1 * DS0 Input

1 * DS0 Output

1 * DS0 Output1 * DS0 Input

E

O9500R

D

O9500R

E1

Node B

O9500R

Node A
O9500R

(Working Path)

Primary Path

Line

Break

C

O9500R

Node B

Node A

Node B

Node A

Node B Node A

Node B Node A

Node B Node A

D

O9500R

Primary Path

(Working path)

Loop-O9500 SDH/SONET IMAP

SDH/SONET-MSTP

30

Circuit Level Protection: O9500R with 3E1 DS0-SNCP ring Protection over ULSR/SNCP ring
Application.

SDH Backbone

STM-16 (OC-48)

Ethernet

Backbone

`

STM-1/4/16

(OC-3/12/48)

Ring

3E1 SNCP

Ring

` `

iNMS

E1/T1
E3/T3

Ethernet

STM-1/4/16

(OC-3/12/48)

Links

O9500R

O9500R

O9500R

O9400R

3E1 SNCP

Ring

AM3440 AM3440

AM3440

O9500R

AM3440

O9400S

LoopTelecom.com

LOOP TELECOMMUNICATION INTERNATIONAL, INC.

ISO 9001 / ISO 14001

Worldwide

Taipei, Taiwan

North America

Tianjin, China

8F, No. 8, Hsin Ann Road

6F, No. 36, Alley 38, Lane 358

8 Carrick Road

No. 240 Baidi Road

Hsinchu Science Park

Rueiguang Road

Palm Beach Gardens

Nankai District

Hsinchu, Taiwan 30078

Neihu, Taiwan 11492

Florida 33418, U.S.A.

Tianjin 300192 China

+886-3-578-7696

+886-2-2659-0399

+1-561-627-7947

+86-22-8789-4027

www.looptelecom.com

michael_tzeng@looptelecom.com

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wym@loop-tj.com

sales@looptelecom.com

 2015 Loop Telecommunication International, Inc.

All Rights Reserved

Version 33 September 13, 2015

Subject to change without notice