Mult i -Ser vice Access Network
The HX9500RA 6U shelf support:
- 4 High Speed tributary module slots
for E1, E3, STMx and EoSDH cards of
the HX9400R
- 6 Low Speed tributary module slots
for voice, low and high speed data ,
EoPDH, TS and TDMoE cards of the
QX3440.
With 4 aggregate optical
or electrical
line interfaces, the HX9500Rx SONET/
SDH offers service providers a versa-
tile protection scheme including
UPSR/SNCP and MSP(1+1) protection
for both ring and linear network topolo-
gies. It works with HX91x0 and
HX9400 multiplexers in same network.
The HS tributary modules include opti-
cal STM-1/4 - OC-3/12, E3/T3, E1/T1
interfaces and Giga/Fast Ethernet over
SDH/SONET are mapped into the
SONET - SDH payload through stand-
ard techniques such as GFP, LAPS,
VCAT and LCAS. The HS modules are
used in HX9400RA SDH multiplexer.
The LS tributary modules are connect-
ed through a full non-blocking DS0
cross-connect matrix so delivering an
integrated mini DACS system.
Features
◦ Combined or Hybrid SONET -
SDH ADM TM and E1/T1-
PDH multiservice DACS
◦ 6U ETSI shelf 19”/23”
◦ Chassis with FAN
◦ TM, ADM and DCS at DS0,
VC12, VC3, VC4
◦ Dual aggregate Optical Ring
STM-1/4/16 - OC-3/12/48
◦ Hot-swappable cross-connect
modules, tributary modules
and power modules.
◦ Tributary Cards : ◦ High-Speed or High Density
access (HS)
◦ Low-Speed access (LS)
◦ Power Modules ◦ DC (-48Vdc)
◦ *AC (90 to 240V, 50/60Hz)
◦ Dual Power (1+1) Protection
Networking protection
◦ Tributary protection ◦ E1/T1: Cards, Port, Line
◦ E3/T3: Cards, Port, Line
◦ STM1/4: MSP, SNCP
◦ Cross-connect Unit (XCU)
◦ SDH Protection MSP, SNCP,
SNCP with MSP and
SNCP-MESH
◦ PDH Protection E1 1+1 and
SNCP PDH 64K with 3E1card
◦ TM, ADM, and cross-connect
◦ Full cross-connect at
VC11/VC12/VC3/VC4 levels
◦ External/Internal/Line timing
source with SSM
◦ Ethernet supports GFP, LAPS,
VCAT and LCAS
◦ Full switch Ethernet capabil-
ity on EoS card
◦ DTMF Engineering Order-Wire
using VoIP phone
◦ Alarm suppression, masking
and report
◦ Management ◦ Console port, VT100 menu
◦ SNMP Port
◦ Telnet
◦ Centralized management
EMS-GUI CXRview
◦ CXR’s EMS/iNMS EMS TMN
management, full FCAPS
end-to end circuit manage-
ment
HX9500R - HX9500RA HYBRID SONET/SDH-PDH
A COMBO MULTIPLEXER PDH EDGE AND SDH TRANSPORT
The HX9500RA SONET/SDH-PDH is a Hybrid Multi-Service Access Multiplexer with
STM-1/4/16 - OC-3/12/48 optical lines aggregate and HS tributaries as EoSDH
and a non-blocking VC11/VC12/VC3/VC4 cross-connect together with a PDH DS0
cross-connect or DACS with Low Speed tributary modules. This solution combine the
PDH access inside the SDH transport device in case of small sites.
The HX9500R/RA 6U shelf with FAN is
supporting:
- 4 High Speed tributary module slots
for E1, E3, STMx and EoSDH cards of
the HX9400R
- 6 Low Speed tributary module slots
for voice, low and high speed data ,
EoPDH, TS and TDMoE cards of the
QX3440.
With 4 aggregate optical
or electrical
line interfaces, the HX9500Rx SONET/
SDH offers service providers a versa-
tile protection scheme including
UPSR/SNCP and MSP(1+1) protection
for both ring and linear network topolo-
gies. This equipment works in same
network with all HX91x0 and HX9400
of CXR range and face to all standard
NG SDH multiplexers .
The HS tributary modules include opti-
cal STM-1/4 - OC-3/12, E3/T3, E1/T1
interfaces and Giga/Fast Ethernet over
SDH/SONET are mapped into the
SONET - SDH payload through stand-
ard techniques such as GFP, LAPS,
VCAT and LCAS. The HS modules are
used in HX9400RA SDH multiplexer.
The LS tributary modules are connect-
ed through a full non-blocking DS0 cross-
connect matrix so delivering an integrat-
ed mini DACS system.
All interfaces are fully compliant with the
relevant ITU ETSI and ANSI standards.
The hybrid SONET/SDH-PDH provides full
Operation, Administration, Maintenance
and Provisioning (OAM&P) functionalities.
Users can easily operate the HX9500RA
locally or remotely with centralized man-
agement together with HX9x00,
QX3440/S/D and different product of
CXR ranges with CXRview-Plus (EMS) or
CXR-iNMS (integrated NMS).
4 354Gpbs
Page 2 - Mul t i -Service Access Network
THE HX9500RA
4 SDH slots
Fans Connector b.dPower
6 PDH slots
HX9500R : 6U height Rack chassis HX9500RA : 6U height Rack chassis support up to 2.5G Mbps mapping bandwidth The HX9500R/RA with two CPU/Aggregate HX9500R-CC4 or CC16 give it the possibility to
deploy the following topologies of SDH aggregates and tributaries.
With 2 HX9500-CC4, this configuration support:
2 SNCP ring STM1/4 or 1 SNCP & 2 MSP 1+1 or 1 STM1/4 ring with 4 fibers SNCP+MSP
and as tributaries 2 STM1 SNCP or 6 STM1 tributaries
With 2 HX9500-CC6, this configuration support:
2 SNCP ring STM1/4/16 or 1 SNCP & 2 MSP 1+1 or 1 STM1/4/16 ring with 4 fibers
SDH TOPOPLOGY OF THE HX9500RA/RL
CXR Anderson Jacobson
Rue de l'Ornette
28410 Abondant - France
T +33 (0) 237 62 87 90
F +33 (0) 237 62 88 01
email: [email protected]
Smart Solutions for Smart Networks
www.cxr.com
HX9500R
Page 3 - Mul t i -Service Access Network
PDH SDH
COREEDGE ACCESS
EoPDH L2: RSTP L3: Static, RIP, OSPF
EoSDH E-LINE: SNCP LCASE-LAN: RSTP
SNCPMSP 1+1
SNCP+MSP
SNCPMSP 1+1
SNCP MESHSNCP+MSP
1+1SNCP-64K over PDH SNCP-64K over PDH in SDH
HX9500R THE RIGHT PROTECTION FOR PDH and SDH
QX3440QX3440S
HX9400RHX9416R
HX9500R
Page 4 - Mul t i -Service Access Network
SPECIFICATIONS
Physical/Electrical
Clock Source Up to 4 clocks with priority from : Internal, STM-N Line 4 aggregate, 2 External input 2MHz or G704 w or w/o SSM, E1 PDH source, 2 output clocks
Management Interface
Alarm Input/Output
Standards Compliance
Certification EMC: FCC Part 15 Subpart B, Class A; EN 55022, Class A; EN55024; EN300 386 With HX9500R-CC4 IEC61850-3, IEEE1613 for utilization in electric substation With HX9500R-CC16 IEC61850-3, IEEE1613 for utilization in electric substation * Q1 2016 EN50121-4 for Railway substation : * in preparation SAFETY: IEC60950-1/EN 60950-1
HX9500R/RA-6U 6U chassis 433mm x 264mm x 223,5mm (W/H/D)
HX9x00R-FILTER 0,5U chassis 433mm x 22mm x 223,5mm (W/H/D)
HX9x00R-FILTER-CBL-xx 2U chassis 433mm x 88mm x 223,5mm (W/H/D) with cable guide 6 or 10cm
AC Power 90 to 240 VAC, 50/60Hz *
DC 48v Power -36 to –72 Vdc ± 15%
DC 24v Power By use of DC 48v card and a 1U 19” chassis with dual channel converter 24V to 48V the DCDC-2X24-48-300W-1U DC 17 to 31 V to DC 48 V 300W each channel
Temperature -10 to +55°C
Humidity 0-95%RH (non-condensing)
Mounting Desktop stackable, 19/23 inch rack mountable supply with brackets, and wall mountable
EOW with HX9500R-CB With TELEPHONE-EOW-IP a VoIP phone connected to HX9500R-CCx. Mode VoIP SIP over EOW channel
EOW with HX9500R-CBB This card include 2 RJ11 FXS for Analog Circuit Telephone Device (Tip/Ring) and 2 Ethernet RJ45 to connect CC4. Mode VoIP SIP over EOW channel.
Console port DB-9F E1/T1 interface connector SCSI-II 68 pins
Optical Interface connector SFP module with LC connectors
Number of Optical STM-x Up to 6 STM4 or 12 STM1 with CC16
Number of E1/T1 channels Card of 16E1/T1, 32 E1/T1 or 63 E1/ 63T1
Console port DB9F, RS232 DCE, user interface VT100 menu driven Standard SNMP V1 and V3 (RFC1213, RFC2571 to RFC2575) OSS interface 10/100BaseT FE (IEEE 802.3u ), Telnet and SSH V2
NE/NE interface DCC/HDLC/Ethernet type II
Inputs Ports 4 Activation current 3 mA Internal resistance 1K Deactivation current 1.5 mA
Connectors RJ45 Outputs
Ports 4 Maximum switching voltage 110 Vdc, 125 Vac
Initial insul. resist. Min. 100M ohm (at 500Vdc)
Connectors RJ45 Use SNMP TRAP or Transmission from Input to Output
CXR Anderson Jacobson
Rue de l'Ornette
28410 Abondant - France
T +33 (0) 237 62 87 90
F +33 (0) 237 62 88 01
email: [email protected]
Smart Solutions for Smart Networks
www.cxr.com
The information contained in this document are provid-ed without warranty and do
HX9500R
ITU-T G.703, G.707, G.751, G.747, G.7041, G.7042, G.775, G.781, G.782, G.783, G.784 (management support SNMP base), G.803, G.806, G.811,G.813, G.823, G.824, G.825, G.826, G.841, G.747,G.957 (SFP base), G.958 (fiber cable), X.86, G.664
ANSI T1.105, T1.107
IEEE 802.1q & 802.1ad(VLAN), 802.1w(RSTP), 802.1s(MSTP), 802.3x(flow control), 802.3u, 802.1p(QoS)
TRIBUTARY
GROUP
SLOTS TRIB 1 TRIB 2 TRIB 3 TRIB 4 CC4 W CC4 E T1 T2 T3 T4 T5 T6
4 X 155M N/A 2 X 155M N/A
2 x 155M 2 x 155M 1 x 155M 1 x 155M
STM-1/4 STM-1/4
(2 po rts) (2 po rts)
STM-1/4 STM-1/4
(2 po rts) (2 po rts)
STM-1/4 STM-1/4
(2 po rts) (2 po rts)
STM-1/4 STM-1/4
(2 po rts) (2 po rts)
Maxi 252 E1 63 E1 63 E1 63 E1 63 E1
or 126 (1+1) 63 E1 63 E1 (P) 63 E1 63 E1 (P)
Max. 12 E3 3 E3 3 E3 3 E3 3 E3
or 6 (1+1) 3 E3 3 E3 (P) 3 E3 3 E3 (P)
32 FE or 4 GE
w/o protection8 FE or 1 GE 8 FE or 1 GE 8 FE or 1 GE 8 FE or 1 GE 8 FE 8 FE 8 FE 8 FE 8 FE 8 FE
16 FE or 2 GE w
1+1 protection8 FE or 1 GE
8 FE or 1 GE
Protection8 FE or 1 GE
8 FE or 1 GE
Protection
28 FOM w/o
protection7 FOM 7 FOM 7 FOM 7 FOM 1 FOM 1 FOM 1 FOM 1 FOM 1 FOM 1 FOM
14 FOM w 1+1
protection7 FOM
7 FOM
Protection7 FOM
7 FOM
Protection
STM-x transport
E1 / E3 transport E1 , FE1 transport and cross-connect
Use All QX3440 card 1 and 2 slots
EoSDH (over n VC12, n VC3, nVC4) EoPDH (over n 64K, n E1)
Fiber to one QX3440 (4E1)Fiber to one QX3440 (4E1)
EoPDH 64k to 2M to 8M per card
BUS SDH to this 6 PDH
Cards
of 21E1 to 21 VC12
Maximum 6 x 4E1, unique clock
Maximum 3 x 4E1 , unique clock , 1+1 protection
Maximum 6 x 3E1, unique clock , SNCP protection *
Maximum 3 x 3E1, unique clock , 1+1 and SNCP protection
*
STM-1
No SDH
4 x 2M 4 x 2M 4 x 2M 4 x 2M 4 x 2M 4 x 2M
2 x STM-1 STM-1
PDH Tributaries
STM-4STM-4
protection
2 x 622M 2 x 622M
AGGREGATES
STM-4 N/A
Link with MSP
(1+1)
2 x STM-12 x STM-1
protection2 x STM-1
TG 1 TG2
2 x STM-1
protection
GLOBAL
PAYLOAD
Link without
MSP
2 x STM-1
HX9500RA/RL CAPACITY WITH 2 CC4
Page 5 - Mul t i -Service Access Network
HX9500RA/RL CAPACITY WITH 2 CC16
TRIBUTARY
GROUP
SLOTS TRIB 1 TRIB 2 TRIB 3 TRIB 4 CC16 W CC16 E T1 T2 T3 T4 T5 T6
4 X 155M N/A 16 X 155M N/A
2 x 155M 2 x 155M 8 x 155M 8 x 155M
STM-1/4/16 STM-1/4/16
(2 po rts) (2 po rts)
STM-1/4/16 STM-1/4/16
(2 po rts) (2 po rts)
STM-1/4/16 STM-1/4/16
(2 po rts) (2 po rts)
STM-1/4/16 STM-1/4/16
(2 po rts) (2 po rts)
Maxi 252 E1 63 E1 63 E1 63 E1 63 E1
or 126 (1+1) 63 E1 63 E1 (P) 63 E1 63 E1 (P)
Max. 12 E3 3 E3 3 E3 3 E3 3 E3
or 6 (1+1) 3 E3 3 E3 (P) 3 E3 3 E3 (P)
32 FE or 4 GE
w/o protection8 FE or 1 GE 8 FE or 1 GE 8 FE or 1 GE 8 FE or 1 GE 8 FE 8 FE 8 FE 8 FE 8 FE 8 FE
16 FE or 2 GE w
1+1 protection8 FE or 1 GE
8 FE or 1 GE
Protection8 FE or 1 GE
8 FE or 1 GE
Protection
16 FE and 4GE - -
28 FOM w/o
protection7 FOM 7 FOM 7 FOM 7 FOM 1 FOM 1 FOM 1 FOM 1 FOM 1 FOM 1 FOM
14 FOM w 1+1
protection7 FOM
7 FOM
Protection7 FOM
7 FOM
Protection
E1 / E3 transport E1 , FE1 transport and cross-connect
STM-x transport
Use All QX3440 card 1 and 2 slots
Fiber to one QX3440 (4E1) Fiber to one QX3440 (4E1)
EoPDH 64k to 2M to 8M per card
EoSDH (over n VC12, n VC3, nVC4) EoPDH (over n 64K, n E1)
STM-4STM-4
protection
BUS SDH to this 6 PDH
Cards
of 21E1 to 21 VC12
Maximum 6 x 4E1, unique clock
Maximum 3 x 4E1 , unique clock , 1+1 protection
Maximum 6 x 3E1, unique clock , SNCP protection *
Maximum 3 x 3E1, unique clock , 1+1 and SNCP protection
*
4 GE/2,4Gbps
STM-4
Link with MSP
(1+1)
2 x STM-12 x STM-1
protection2 x STM-1
2 x STM-1
protection
STM-4STM-4
protection
4 x 2M 4 x 2M 4 x 2M
Link without
MSP
2 x STM-1 2 x STM-1 2 x STM-1 2 x STM-1
No SDH
STM-4
TG 1 TG2 AGGREGATES PDH Tributaries
GLOBAL
PAYLOAD2 x 622M 2 x 622M 4 x 2M 4 x 2M 4 x 2M
HX9400RX/HX9500R X SDH P ROTECTION
Page 6 - Mul t i -Service Access Network
The CXR SDH ADM/TM multiplexers HX9500R/RA are supporting the SDH following
protections:
The physical STM-x interfaces are connected in BUS or RING infrastructure with MSP or SNCP
protection but each VC12, VC3 or VC4 circuit we is selected with protection or without protect-
ed by the MSP or SNCP. Then the bandwidth utilization of the STM-x fiber is optimized with
protected circuits, theirs protection circuits and unprotected circuits.
MSP 1+1 Protection is available between aggregate interfaces of CC4/CC16 (between 2 ports
of one card or 1 ports of 2 cards) and with two tributaries HX9400R-ADSTM1/4 cards (one
STM4 as MSP 1+1 or 2 STM1 as MSP 1+1).
SNCP Protection is available between aggregate interfaces of CC4/CC16 (between 2 ports of
one card or 1 ports of 2 cards) or and with two tributaries HX9400R-ADSTM1/4 cards (one
STM4 between Slot1 and Slot3 or 2 STM1 between Slot1 and Slot 2 or Slot 3 and Slot 4).
SNCP with MSP 1+1 with 4 fibers Protection is available between aggregate interfaces of
CC4/CC16 using the 4 ports. This protection is used in infrastructure with a level of risk on the
fiber availability.
SNCP Mesh Protection with 2 CC4 or CC16 the SNCP protected circuit can cross the node from
one aggregate CC4/16 interface to a tributary interface the HX9400R-ADSTM1/4 cards. T
MESH feature gives the possibility to share physical interfaces to set-up several
VC12/VC11/VC3/VC4 circuits.
The SNCP protection is activated in Intrusive Mode only in case the fiber or in Non-Intrusive
mode when the fiber is cut or on bad quality of the STM-x line.
All protections are Reversible or No- Reversible.
The recovery time of circuits with MSP protection is < 10ms
The recovery time of circuits with SNCP protection is < 50ms
The recovery time of circuits with SNCP+ MSP over 4 fiber protection is < to 50ms
HX9500RA SDH TRIBUTARY INTERFACES
High-Speed or High Density Access Tributary Modules (HS) plug-in Interface cards
These cards can be used in HX9400RA or HX9500RA without modification.
HX9400R-ADSTM1/4 2 STM-1 or 1 STM-4- - (OC-3/12) tributarie0.s
HX9400R-63E1T1 or E1-75 63x ports E1/T1 tributaries
HX9400R-32E1T1 or E1-75 32x ports E1/T1 tributaries
HX9400R-16E1T1 or E1-75 16x ports E1/T1 tributaries
HX9400R-3DS3/E3 3x ports E3/T3 tributaries
HX9400R--SWM-GTX-8TTX EoS (8xFE+1xGBE) Ethernet card with L2 switch (E-Line/E-LAN)
HX9400R--GTX-8TTX EoS (8xFE+1xGBE) Ethernet card without switch (E-Line)
HX9500RL-2CB-2GSF EoS (2x GE + 2 Combo GE/SFP) switch with 2.48G back-plane
HX9400R-7FOM 7 Fiber Optic (SFP) of 4E1 compatible with QX3440-4E1FO
HX9400R-TDMoG TDMoGE PseudoWire SAT, CESoPSN with 2 WAN Combo
10/100/1000Baset & 2 SFP and 4 LAN 10/100/1000BaseT
Remarks: all E1, T1, E3 and DS3 interfaces of the card are supporting independent clock synchroniza-
tion as the standard SDH transport.
Please looks to HX9400R datasheet for tributary specifications.
HX9500R
Page 7 - Mul t i -Service Access Network
Low Speed Access Tributary Modules (LS) plug-in Interface Cards. They are used in
QX3440/QX3440S or HX9500Rx without modification.
QX3440-4E1(T1/BNC) 4x channel E1 or T1
QX3440-3E1(BNC) 3 x channel E1. This card support SNCP-PDH protection
QX3440-8G703-64K 8x channel G703-64K—Codirectionnal
QX3440-TOR-8I-8O 8x channel Dry Contact I/O
QX3440-8EM 8x channel 2W/4W E&M
QX3440-2GSH4W 2x channel G.SHDSL (2 pairs)
QX3440-4GSH 4x channel G.SHDSL (1 pairs)
QX3440-12FXS 12x channel FXS
QX3440-12FXO 12x channel FXO
QX3440-FOE1-xxx 1 fiber optic with 4E1
QX3440-xC3794 1 or 4 channel C37.94 (low speed optical)
QX3440-SW8RT 8x port Bridge/Router EoPDH 64Kbps to 2M to 8Mbps
QX3440-6V3x-DB25 6x channel V.35 , V36, use 2 slots.
QX3440-6X21-DB15 6x channel X.21, use 2 slots.
QX3440-8RS232-A4S 8 RS232 Sync and Async
QX3440-8RS232-BR 8 RS232 Async with bridge for dual concentrator (SCADA)
QX3440-8RS485-TS-BUS 8x channel asynch RS232/RS485/RS232, Terminal Server, MOD-BUS
…..
QX3440-TDMoE TDMoE Pseudowire Emulation SAT/CESoPSN/AAL1, GE 2 WAN and 2 LAN
Please looks to QX3440 datasheet for tributary specifications.
QX3440 & HX9500R/RA PDH TRIBUTARY INTERFACES
QX3440 & HX9500R/RA PDH PROTECTION
The PDH QX3440 and the Hybrid SDH ADM/TM PDH HX9500RA/RL and HX9550R
multiplexers are supporting for n64K circuits the SNCP-PDH or SNCP-DS0 or SNCP-
64K protections:
Inside a static TDM PDH or PDH over SDH network this SNCP-PDH give a dynamic End to End
protection between 2 sites A and Z for voice or data interfaces.
This is feature is processed by the QX3440-3E1 or HX9550-3E1 cards and switch by the
CPU/DACS TS0. At the both end A and Z an active link is generated over a Working Path (WP),
and a duplicate link over the Protection Path (PP). These links is a framed circuit DS0 n 64Kbps
over a serial of E1 links.
The switch of the n64K circuit from Working Path (WP) to Protection Path (PP) is effective within
10ms. This is much faster than the full E1 switch in PDH network or Microwave but also in SDH
Network with MSP-SDH or SNCP-SDH.
This mode supports the protection of data or voice with or CAS circuits or G.704. The protected
circuits are selected with one 64Kbps TS (Time Slot) or n 64Kbps TS with n<32. The E1 WAN use
to carry such circuit can carry together standard traffic without protection in other TS.
When using the HX9500Rx chassis the protection is generating at the PDH level and carried over
SDH VC12 circuits.
HX9500R
Page 8 - Mul t i -Service Access Network