ZXCTN 6300 ( V1.1 ) Packet Transport Product Hardware Introduction
Course Outline
ZXCTN 6300 ( V1.1 ) Product Hardware Introduction Product Overview System Structure Board Function Performance and index
BSC
MSTP Access Ring
ZXCTN 6300 is the packet transmission-oriented carrier-class multi-service carrier product introduced by ZTE. It focuses on bearing and transmission of integrated mobile Backhaul and multi-service network, which can meet
transmission requirements of various Convergence layer services.
ZXCTN 6300 is the packet transmission-oriented carrier-class multi-service carrier product introduced by ZTE. It focuses on bearing and transmission of integrated mobile Backhaul and multi-service network, which can meet
transmission requirements of various Convergence layer services.
BTS
BTS
RNCCTN 6100
CTN 6200
CTN 6200
CTN 6300 CTN 9004
SGSN
MGW
MSC
NodeB
NodeB
NodeB
Position of ZXCTN 6300 in the Transmission Network
CTN 9008
Access Layer Core LayerConvergence Layer
MSTP Convergence Layer
ZXCTN 6300 Product Profile
ZXCTN 6300 Brief Introduction Dimensions: 482.6mm(W) X 352.8mm(H) X 243.0mm(D) . Satisfies the mounting requirements of subrack in the IEC standard cabinet
(19–inch cabinet) or ETS standard cabinet (21–inch cabinet). Mounting mode. : cabinet, with the depth of 300 mm. Subrack adopts the crosswise structure,8U height. Multi-service bearing : support FE 、 GE 、 POS STM-1/4 、 Channelized
STM-1/4 、 ATM STM-1 、 IMA/CES/MLPPP E1 、 10GE service interfaces. Switch capacity (dual-direction) : 176Gbps. Backplane Capacity: 440Gbps. Packet transmit rate: 130.95Mpps. Equipment power consumption : ≤ 500W. Two types power supply:-48V DC and 220V AC. Based on all-packet architecture . Offers redundant protection for equipment-level critical units, including 1+1
protection for power board, main control board, switching board, clock board, as well as two groups 1:2 TPS protection of E1 board.
Earthquake-proof level : safe under level-9 earthquake .
ZXCTN 6300 System Applications ZXCTN 6300 provides access and transmission of packet service an
d TDM service. System also provides perfect service protection, OAM and clock synchronization and has carrier-class service transmission characteristics.
Service transmission layer adopts MPLS/MPLS-TP network technology. Service layer supports Ethernet network. System has the capability of transmitting multiple services such as Ether
net, TDM and Asynchronous Transfer Mode (ATM). System provides guaranteed QoS. System provides TPS protection switching time less than 50ms. System supports MPLS-TP OAM and Ethernet OAM functions. System meets E-Line, E-LAN and E-Tree service models defined by Met
ro Ethernet Forum (MEF). Supports various L2 VPN service types. As for transmission, it meets synchronous clock and time data required
by 2G and 3G mobile communication base station.
ZXCTN 6300 Application Scenario
ZXCTN 6300 Application Scenario
As the Convergence layer device, ZXCTN 6300 is applicable to various solutions and the corresponding application scenarios : Access and transport of mobile base station service Access and transport of large client private line servic
e Access and transport of Next Generation Network (NG
N) service Access and transport of Internet Protocol Television (I
PTV) service Access and transport of Video On Demand (VOD)/Voi
ce over IP (VoIP) service Access and transport of mass client Internet service
Course Outline
ZXCTN 6300 ( V1.1 ) Product Hardware Introduction Product Overview System Structure Board Function Performance and index
System Software Structure
E1/STM-N
IMA E1/ATM STM-N
FE/GE/10GE
E1/STM-N
GE/10GE
Packets exchange core
Control plane
Data plane Man
agem
ent
Man
agem
ent
plane
plane
Clock/time sync( Ethernet clock sync, 1588 time sync)
TDM PWE3TDM PWE3
ATM PWE3ATM PWE3
ETH PWE3ETH PWE3
Three planes of data, control, and management are independently designed. Packet exchange core, multi-service bearing Supporting clock/time sync satisfies clock/time requirements in various types of
application environments.
ZTE PTN Product Structure
Cabinet
Width
(mm)
Depth
(mm)Height (mm)
Max
Subrack Number
Max Power distribution box Number
600 300
2000 3 1
2200 3 1
2600 3 1
Considering the heat radiation , at most three subracks can be installed in cabinet.
The free space can be used to install user’s device , such as router.
1U space (1U = 44.45mm) at least be reserved in the bottom of cabinet for installing the cabinet back door and ensuring the connection of cabinet grounding cable
Cabinet adopts unified ZTE transmission equipment cabinet, complying with IEC standards. ; adopts front/back column and single front opening door.
Cabinet Component
1. Power cable outlet2. Top cable outlet3. Alarm indicator4. Mounting bracket5. Cable arranging clip6. Back column7. Front column8. Cabinet cabling area9. Cable fixing plate10. Ring trip switch11. Bottom cable outlet12. Mounting hole13. Display window of alarm indicatoron the front door14. Door lock15. Front door16. Grounding terminal of cabinet protecting ground
Power Distribution
1. Mounting flange2. Grounding terminal of protection ground3. Front panel of power distribution box4. Subrack –48 V output5. Input of external power supply protection ground (PE)6. –48 V input of external power supply7. –48 V RTN input of external power supply8. Subrack –48 V RTN output
Power distribution box serves to receive active and standby external power supplies. After filtering and lightning protection of the external power supplies, it distributes two pairs of active/standby power supplies to each subrack.
System Components ZXCTN 6300 adopts centralized structure. With two main control switching clock boards for 1+1 b
ackup, the system integrates main control, switching and clock functions and communicates with other components through mother board.
Different service boards can be inserted into service slots of the system and thus provide various service interfaces.
system adopts two 1+1 hot backup –48 V power boards or 110 V/220 V power cards for power supply to ensure the secure running of the system
Services and Functions
Service Processing Model
ZXCTN 6300 Subrack
1. Handle2. Mounting Lug3. Fan Section4. Subrack Protective Earth Terminal5. Anti-Static Wrist Strap Jack6. Low-Speed Service Card Section7. Cabling Trough8. Main Board Section9. High-Speed Service Card Section10. Power Board Section
ZXCTN 6300 subrack adopts horizontal plug-in structure. Subrack provides 17 slots : two main card slots, 12 service card slots, two power slots and one fan slot. ZXCTN 6300 system transmits service signals and manages data between boards via bus. Satisfies the mounting requirements of Subrack in the IEC standard cabinet (19–inch cabinet) or ETS standard cabinet (21–inch cabinet) ;
Fan Plug-in Box
1. Fan2. Backplane Interface3. Indicator4. Handle5. Lock Button
Each ZXCTN 6300 subrack has a fan plug-in box. The fan plug-in box is installed in the left side of subrack, which adopts lateral side air feed and discharge mode. A fan plug–in box is composed of eight parallel fans, and the fans share a socket
Board Slots in Subrack
Slot No. Access Capacity Pluggable Board
1# ~2# 8GE RE1PI
3# ~8# 8GE R8EGF 、 R8EGE 、 R4EGC 、 R4CSB 、 R4ASB 、 R16E1F 、 R16E1B 、 R4GW 、 R4CPS
9# ~12# 10GE R1EXG
13# 、 14# - RSCCU3
15# 、 16# - RPWD3 、 RPWA3
17# - RFAN3
Functional boards plugged into specific slots;
while service boards into flexible slots.
ZXCTN 6300 Board Naming ListBoard ID Meaning of Board ID
RSCCU3 Switch Control Clock Unit for 6300
R1EXG 1 port Enhanced 10 Gigabit ethernet Fiber interface
R8EGF 8 ports Enhanced Gigabit ethernet Fiber interface
R8EGE 8 ports Enhanced Gigabit ethernet ELE interface
R4EGC 4 ports Enhanced Gigabit ethernet Combo interface
R4CSB 4 ports Channelized STM-1 Board
R4ASB 4 ports ATM STM-1 Board
R4GW Gateway Board
R4CPS 4–Port Channelized STM-1 PoS Board
R16E1B 16 ports E1 board with back interface
R16E1F 16 ports E1 board with Front interface
RE1PI E1 Board for Interface protection
RPWD3 Power DC board for 6300
RPWA3 Power AC board for 6300
RFAN3 Fan board for 6300
Relationship Between Boards and SlotsBoard Type Board Occupied Slot Number Slot NO.
Main control board
RSCCU3 1 Slot13 、 Slot14
Interface board
(sub-board)
R1EXG 1 Slot9 ~Slot12
R8EGF 1 Slot3 ~Slot8
R8EGE 1 Slot3 ~Slot8
R4EGC 1 Slot3 ~Slot8
R4CSB 1 Slot3 ~Slot8
R4ASB 1 Slot3 ~Slot8
R4GW 1 Slot3 ~Slot8
R4CPS 1 Slot3 ~Slot8
R16E1B 1 Slot3 ~Slot8
R16E1F 1 Slot3 ~Slot8
RE1PI 1 Slot1 ~Slot2
Power supply board
RPWD3 1 Slot15 、 Slot16
RPWA3 1 Slot15 、 Slot16
Fan board RFAN3 1 Slot17
Course Outline
ZXCTN 6300 ( V1.1 ) Product Hardware Introduction Product Overview System Structure Board Function Performance and index
Board Function
Main control switching clock Board RSCCU3
Service Board Power Board Fan Board
Switch Control Clock Unit RSCCU3
Board Functions RSCCU3 is the core board of ZXCTN 6300,composed
of functional boards: master control unit, switch unit, clock synchronization unit and so on, they are cooperated to realize the following system functions:
Control Routing Network management protocol
RSCCU3 adopts 1+1 backup working mode.
Switch Control Clock Unit RSCCU3
Functional Block Diagram
Switch Control Clock Unit RSCCU3
Functional Module Descriptions
master control unit functionsIt monitors the active/standby state, and processes the signals of active/standby handover, maintains and updates L2 and L3 forwarding table.It manages the service boards, power supply board and fan board. Meanwhile, it is responsible for alarming and reporting information, such as board type, board state, reset and interruption.It monitors the board temperature and provides buzz alarm, real time clock functions.It runs routing protocol, maintains the global routing table and forwarding table.It downloads program from Flash saving in the board to the service board just starting by means of out-band communication.
switch unit functionsIt provides higher line speed switch ability with 176 GE. It is responsible for integrated forwarding the whole system service traffic and processing the related services. It caches the service, manages and schedules the queues.
clock unit functionsIt receives the reference clock coming from service boards, 2M BITS, the reference clock inputted by 2M BITS or 1PPS+1ToD clock reference generated by GPS module to generate system synchronization clock and then distributes to service boards for sending data.
Switch Control Clock Unit RSCCU3
Functional Module Descriptions
OAM processing moduleIt receives and analyses OAM packets, queries OAM information table and makes corresponding processing.It provides OAM packet protocol to downlink services.
Switch moduleIt realizes the communication and management between master control board and service boards (including between the active and standby RSCCU3 boards).
Power supply moduleIt receives the external power and converts it to the required standard.
Switch Control Clock Unit RSCCU3
Front Panel
1. Captive screw2. Run indicator (RUN)3. Alarm indicator (ALM)4. Board active/standby indicator (MST)5. CLK Clock running indicator (CLK)6. BITS interface (Tx)7. BITS interface (Rx)8. Time interface (GPS_IN)9. Time interface (GPS_OUT)10. Alarm input interface (ALM_IN)11. Alarm input interface (ALM_OUT)
12. Local maintenance terminal interface (LCT)13. Network management interface (Qx)14. Device running indicator interface (LAMP)15. Device debugging interface (CON)16. Board enforced-handover button (EXCH)17. Board reset button (RST)18. Ring-trip button (B_RST)19. Extractor
Switch Control Clock Unit RSCCU3
InterfaceInterface Description
BITS ( Tx 、 Rx )
BITS clock signal sending & receiving interface, adopting un-balanced CC4interface. It supports one channel BITS external clock output & input (75Ω).
GPS_IN
GPS_OUT
External time input & output interface, the interface type is RJ45. It supports to input & output
phase synchronization information and absolute time value. It is used to receive & send external
time and synchronize the local and external clock.
ALM_IN Alarm input interface, the interface type is RJ45. It supports four channel external alarm inputs.
It is used to receive alarm from other devices.
ALM_OUT Alarm output interface, the interface type is RJ45. It supports three alarm output channels. It is
used to send alarm to other devices.
LCT Local maintenance terminal interface, the interface type is RJ45. It is used to Ethernet Telnet login
and management.
Qx Network management interface, the interface type is RJ45. It is used to connect ZTE network
management system.
LAMP Device running indicator interface, the interface type is RJ45. It is used to connect the alarm
indicators of cabinet and heads cabinet.
CON Device debugging interface, the interface type is RJ45. It is used to configure and maintain the
system.
Switch Control Clock Unit RSCCU3 Board Indicator Status
Working StatusIndicator Status
RUN (Green) ALM( Red) MST( Green)
CLK( Green)
The board runs normally without alarm.Flash 0.5 times /second regularly
Off - -
The board runs normally with alarm.Flash 0.5 times /second regularly
Flashing (0.5
time/second) or On- -
The board runs normally. The
active/standby synchronization Data
Flash 0.5 times /second regularly
On - -
Active RSCUU3 board - - On -
Standby RSCUU3 board - - Off -
Clock Locking (Normal Tracing) - - -Flash once /second regularly
Clock Hold - - - On
Clock Fast Capture - - -Flash 5 times /second regularly
Clock Free Oscillation - - -Flash 0.5 times /second regularly
“Flashes (0.5 time/second)” means that the indicator is on for one second and off for another one second. “Flashes (once/second)” means that the indicator is on for half a second and off for another half a second. “Flashes (5 times/second)” means that the indicator is on for 0.1 second and off for another 0.1 second.
Port Protection on RSCCU3 Board When two pieces of RSCCU3 board are configuration , all the ports on
the up and down boards are protecting to each other one-to-one :
Board Function
Main control switching clock Board Service Board
R4ASB R4EGC R8EGE R8EGF R1EXG R4CSB R4GW R4CPS R16E1F R16E1B RE1PI
Power Board Fan Board
ATM STM-1 Board R4ASB Board Functions
R4ASB board is an Asynchronous Transfer Mode (ATM) interface board. It provides four unchannelized ATM optical interfaces. The bandwidth of
each optical interface is STM-1.
R4ASB Board FunctionsIt supports the configuration for port rate.It supports port digital diagnosis.It supports port laser automatic shutdown.It supports Synchronous Digital Hierarchy (SDH) functions, including standard SDH frame structure, SDH frame demarcation, clock recovery, section layer cost handling, alarm, performance statistics and so on.It implements Pseudo Wire Emulation Edge-to-Edge (PWE3) encapsulation and de-encapsulation for ATM cells, and Mapping of attributes in ATM cell headers.
ATM STM-1 Board R4ASB
Front Panel
1. Captive screw2. Board running indicator3. Board alarm indicator4. TX sending port indicator :Green n=1~45. RX receiving port indicator :Green, n=1~46. ATM STM-1 optical interface7. Carrying handle8. Laser warning mark9. Laser class mark
Interface
Interface Description
ATM STM-1 optical interface
Four ATM STM-1 optical interface, using pluggable SFP optical module
ATM STM-1 Board R4ASB Board Indicator Status
STM-1 Optical Interface and Indicator Status
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) On
“-” indicates uncertain status “Flashes (once/second)” means that the indicator is on for half a second and off for another half a second.
Interface Working Status
Indicator Status
Tn ( n:1~4 )( Green )
Rn ( n:1~4 )( Green )
Interface receive no optical signal - Off
Interface is locked and without section level error code - On
Interface is not locked and with section level error code - Flashing once/second
Laser is open On
Laser is closed Off -
Enhanced Gigabit Combo Board R4EGC Board Functions
R4EGC is an enhanced Combo board. It provides four gigabit SFP optical interfaces and four gigabit Ethernet electrical interfaces.
R4EGC Board FunctionsIt supports the configuration for optical interface rate.It supports optical interface digital diagnosis.It supports laser automatic shutdown on optical interfaces.It supports full duplex/half duplex mode on electrical interfaces.It supports 10M/100M/1000M automatic negotiation on electrical interfaces.It supports compulsive mode on electrical interfaces.It supports automatic crossing function in any task mode on electrical interfaces.It supports electrical interface cable test.It supports synchronous Ethernet.It is used to realize Frame LM and DM functions related to system OAM.It supports the modification of MEL value of MPLS-TP OAM packet.It supports timestamp function of 1588 messages.
Notes:The optical interface and electrical interface with the same number cannot be used at the same time. Only one of them can be used.For example, when No.1 electrical interface is working, the No.1 optical interface is unavailable.
Six types of interface application:4 optical interfaces4 electrical interfaces2 optical +2 electrical interfaces1 optical +3 electrical interfaces3 optical +1 electrical interfaces
Enhanced Gigabit Combo Board R4EGC
Front Panel
1. Captive screw2. GE Ethernet electrical interface3. Board running indicator4. Board alarm indicator5. GE Ethernet electrical interface ACT indicator : yellow6. GE Ethernet electrical interface LINK indicator : green7. GE Ethernet optical interface ACT indicator : green8. GE Ethernet optical interface LINK indicator : green9. GE Ethernet optical interface10. Carrying handle11. Laser warning mark
1
23 4
5 6
9
7 8
10
InterfaceInterface Description
GE ( electrical )
4 gigabit Ethernet electrical interfaces,
Using RJ45 socket
GE ( optical ) 4 gigabit Ethernet optical interfaces,
Using pluggable SFP optical module
Enhanced Gigabit Combo Board R4EGC Board Indicator Status
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) Flashing (0.5 time/second) or On
“Flashes (0.5 time/second)” means that the indicator is on for one second and off for another one second.
Enhanced Gigabit Combo Board R4EGC
GE Optical Interface and Indicator Status
Interface Working Status
Indicator Status
LIINK n ( n:1~4 )( Green )
ACT n ( n:1~4 )( Green )
Interface receives optical signal (disconnected)
On Off
Interface does not receive optical signal Off Off
Interface is in connected status On On
Interface is in disconnected status - Off
Interface receives and transmits data On Flashing (5 time/second)
Interface Working StatusIndicator Status
LINK n:1~4 ( Green ) ACT n:1~4 ( Yellow )
Interface is in connected status On On
Interface is in disconnected status Off Off
Interface receives and transmits data On Flashing (5 time/second)
“-” indicates uncertain status “Flashes (5 times/second)” means that the indicator is on for 0.1 second and off for another 0.1 second.
GE Electrical Interface and Indicator Status
Enhanced Gigabit Electrical Interface Board R8EGE
Board Functions R8EGE is an enhanced Gigabit Ethernet board, which provides eight Ethernet
electrical interfaces
R8EGE Board FunctionsIt supports full-duplex/half-duplex working mode.It supports 10/100/1000M auto negotiation.It supports enforcing mode.It supports automatic interaction function in task mode.It supports cable test.It supports synchronous Ethernet.It is used to realize LM and DM functions related to system OAM.It supports to modify MEL value of MPLS-TPOAM packet.It supports timestamp function of 1588 messages.
Enhanced Gigabit Electrical Interface Board R8EGE
Front Panel
1. Captive screw2. Board running indicator3. Board alarm indicator4. GE Ethernet electrical interface: 5. GE Ethernet electrical interface ACT indicator: yellow6. GE Ethernet electrical interface LINK indicator: green7. Extractor
1
34
5 6
7
2
Interface
Interface Description
GE ( electrical l )
8 GE Ethernet electrical interfaces,
adopting RJ45 socket
Enhanced Gigabit Electrical Interface Board R8EGE
Board Indicator Status
GE Electrical Interface and Indicator Status
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) Flashing (0.5 time/second) or On
“Flashes (0.5 time/second)” means that the indicator is on for one second and off for another one second. “Flashes (5 times/second)” means that the indicator is on for 0.1 second and off for another 0.1 second.
Interface Working StatusIndicator Status
LINK n:1~8( Green ) ACT n:1~8 ( Yellow )
Interface is in connected status On On
Interface is in disconnected status Off Off
Interface receives and transmits data On Flashing (5 time/second)
Enhanced Gigabit Optical Interface Board R8EGF
Board Functions R8EGF is an enhanced Ethernet board, which provides eight Gigabit SFP optical
interfaces.
R8EGF Board FunctionsIt supports the configuration for interface rate. It supports digital diagnosis for optical interface.It supports port laser auto shutdown.It supports synchronous Ethernet.It is used to realize LM and DM functions related to system OAM.It supports the modify MEL value of MPLS-TP OAM packet.It supports timestamp function of 1588 messages.
Enhanced Gigabit Optical Interface Board R8EGF
Front Panel
1. Captive screw2. Board running indicator3. Board alarm indicator4. GE Ethernet optical interface5. GE Ethernet optical interface ACT indicator : green6. GE Ethernet optical interface LINK indicator :green7. Extractor8. Laser warning mark
Interface
Interface Description
GE ( optical )
8 gigabit Ethernet optical interfaces,
Using pluggable SFP optical module
Enhanced Gigabit Optical Interface Board R8EGF
GE Optical Interface and Indicator Status
Board Indicator Status
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) Flashing (0.5 time/second) or On
Interface Working StatusIndicator Status
LINK n:1~8( Green ) ACT n:1~8( Green )
Interface receives optical signal (disconnected)
On Off
Interface does not receive optical signal Off Off
Interface is in connected status On On
Interface is in disconnected status - Off
Interface receives and transmits data On Flashing (5 time/second)
Enhanced 10GE Optical Interface Board R1EXG
Board Functions R1EXG board provides one 10G XFP optical interface
R1EXG Board FunctionsIt supports the configuration for interface rate.It supports digital diagnosis of optical interface.It supports port laser auto shutdown.It supports synchronous Ethernet.It is used to realize LM and DM functions related to system OAM.It supports to modify MEL value of MPLS-TP OAM packet.It supports timestamp function of 1588 messages.
Enhanced 10GE Optical Interface Board R1EXG
Front Panel
1. 10GE Ethernet optical interface ACT indicator :green2. 10GE Ethernet optical interface LINK indicator : green3. 10GE Ethernet optical interface
1 2 3
Interface
Interface Description
10GE ( optical )
One 10 gigabit Ethernet optical interfaces,
Using pluggable XFP optical module
Enhanced 10GE Optical Interface Board R1EXG
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) Flashing (0.5 time/second) or On
Board Indicator Status
10GE Optical Interface and Indicator Status
Interface Working StatusIndicator Status
LINK ( Green ) ACT ( Green )
Interface receives optical signal (disconnected) On Off
Interface does not receive optical signal Off Off
Interface is in connected status On On
Interface is in disconnected status - Off
Interface receives and transmits data On Flashing (5 time/second)
Channelized STM-1/STM-4 Board R4CSB
Board Functions R4CSB board provides channelized 4 STM-1 or 2 STM-4 interfaces , It supports structured and non-structured processing of CES service
R4CSB Board FunctionsSupport 4 STM-1 or 2 STM-4 optical interfaces. Adopting plug-pull SFP optical module, optical interfaces type is LC:
STM-1 optical interfaces support optical module :S-1.1 ( 15 km )、 L-1.1 ( 40km )、 L-1.2 ( 80 km )STM-4 optical interfaces support optical module :S-4.1 ( 15 km )、 L-4.1 ( 40km )、 L-4.2 ( 80 km )
It supports the configuration for interface rate.It supports digital diagnosis for optical interface.It supports port laser auto shutdown.It supports SDH function, including standard SDH frame structure, SDH frame delimitation function, clock recovery function, the processing of segment cost, and alarm and performance statistic. It supports PWE3 service encapsulation bearer.
Notes:channelized interfaces must have the same rate on one board: all STM-1 or all STM-4
Channelized STM-1/STM-4 Board R4CSB
Front Panel
1. Captive screw2. Board running indicator3. Board alarm indicator4. Optical interface sending indicator Tn n=1~4, green5. Optical interface receiving indicator Rn n=1~4, green6. STM-1/STM-4 optical interface:4 STM-1/2 STM-4 optical interfaces SFP optical module7. Extractor8. Laser warning mark9. Laser class mark
2
1
3
4 5
6 7
Channelized STM-1/STM-4 Board R4CSB
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) On
Board Indicator Status
STM-1/STM-4 Optical Interface and Indicator Status
Interface Working Status
Indicator Status
Tn ( n:1~4 )( Green )
Rn ( n:1~4 )( Green )
Interface receive no optical signal - Off
Interface is locked and without section level error code - On
Interface is not locked and with section level error code - Flashes ( once/second)
Laser is open On -
Laser is closed Off -
Gateway Board R4GW Board Functions
R4GW board support 4 Ch.STM-1 or 1 Ch.STM-4 interfaces to realize the functional unification of channelized POS and channelized E1.
R4GW Board FunctionsSupport 4 STM-1or 1 STM-4 optical interfaces for both ZXCTN 6200 and 6300 system:
STM-1 optical interfaces support optical module :S-1.1 ( 15 km )、 L-1.1 ( 40km )、 L-1.2 ( 80 km )STM-4 optical interfaces support optical module :S-4.1 ( 15 km )、 L-4.1 ( 40km )、 L-4.2 ( 80 km )
As the UNI interface, it supports access to Ethernet service and TDM service.It supports MSP protection.It supports configuring interface rate.It supports the digital diagnosis of the optical interface, and the automatic shutdown of the optical interface laser.It supports SDH function of STM-1/4 optical interface.It supports clock function, such as port extraction clock and selection clock.
Note:Once the 1st optical interface set as STM-4 , the rest three interfaces are unavailable.
Gateway Board R4GW
Front Panel
1. Captive screw2. Board running indicator (RUN)3. Board alarm indicator (ALM)4. Optical interface sending indicator Tn n=1~4, green5. Optical interface receiving indicator Rn n=1~4, green6. STM-1/4 optical interface : Four-channel STM-1/STM-4 optical interface, using pluggable SFP optical module7. Carrying handle
Gateway Board R4GW
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) On
Board Indicator Status
STM-1/STM-4 Optical Interface and Indicator Status
Interface Working Status
Indicator Status
Tn (n:1~4)( Green ) Rn ( n:1~4)( Green )
Interface receive no optical signal - Off
Interface is locked and without section level error code - On
Interface is not locked and with section level error code - Flashes ( once/second)
Laser is open On -
Laser is closed Off -
4-Port Channelized PoS Board R4CPS Board Functions
R4CPS is a 4–port Channelized PoS STM-1 board. It carries the PTN service through the VC12, VC3, and VC4 channels.
The R4CPS board provides four channels of STM-1 interfaces, where the first two STM-1 interfaces can be configured as STM-4 interfaces. In this case, the last two STM-1 interfaces are not usable.
R4CPS Board FunctionsSupports clock synchronization, but does not support time synchronization.Supports intercommunication of NE management information,which uses the DCC channel.Supports eight channels of VCGs.The service framing mode uses the GFP-F protocol.Supports LCAS.The board interface can be configured to 2-channel STM-4 mode or 4-channel STM-1 mode.
4-Port Channelized PoS Board R4CPS
Front Panel
1. Captive screw2. Board running/protection status indicator (RUN/MS)3. Board alarm indicator (ALM)4. Optical interface sending indicator Tn n=1~4, green5. Optical interface receiving indicator Rn n=1~4, green6. STM-1/STM-4 optical interface: 4–port Channelized PoS STM-1,only he first port can be set as STM-47. Carrying handle8. Laser warning mark9. Laser class mark
4-Port Channelized PoS Board R4CPS
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarm Flashes (0.5 time/second) Off
Board runs properly with alarm Flashes (0.5 time/second) On
Board Indicator Status
Optical Interface and Indicator Status
Interface Working Status
Indicator Status
Tn (n:1~4)( Green )
Rn ( n:1~4)( Green )
Interface receive no optical signal - Off
Interface is locked and without section level error code - On
Interface is not locked and with section level error code - Flashes (once/second)
Laser is open On -
Laser is closed Off -
Front Outgoing Line E1 Board R16E1F Board Functions
R16E1F is an E1 circuit emulation board, supporting sixteen E1 interfaces. On the UNI side, the board can support TDM E1 or IMA E1 function based on each E1
interface. On the NM system, R16E1F-(TDM+IMA) is displayed. On the NNI side, the board runs in ML-PPP mode and is displayed as R16E1F-(MLPPP).
R16E1F Board FunctionsSupports 16–channel E1 interface.Supports E1 interface framing function and framing detection function.Supports framing and framing detection functions. Supports PCM30/PCM30 CRC/PCM31/PCM31 CRC framing formats. Complies with ITU-T G.7041.Supports alarm reporting and performance reporting on all E1 interfacesSupports structured and non-structured TDM E1 services and supports E1 framing handling and time slot compression function for structured servicesSupports PWE3 encapsulation and de-encapsulation for TDM services.Supports adaptive clock recovery mode and re-timeing mode for TDM E1 and IMA E1 service restoring.Supports 16–channel re-timingSupports drifting control of output clockWhen the E1 interface is working in the ML-PPP service mode, it can separately carry the voice and signalling services of the base station.
Supports line extracted synchronization clock.Supports detection of the ML-PPP link status.Supports protection of E1 link in the ML-PPP group in the board.
Front Outgoing Line E1 Board R16E1F
Front Panel
1. Fixed Screw2. Board Run Indicator RUN3. Board Alarm Indicator ALM4. E1 Electrical Interface (1 ~8)5. Lever6. E1 Electrical Interface (9 ~16)
2 3
1
45 6
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly without alarmFlashes (0.5 time/second)
Off
Board runs properly with alarmFlashes (0.5 time/second)
On
Board Indicator Status
16XE1 Protection Processing Board R16E1B Board Functions
The processing board protected by 16–channel E1 and the interface board RE1PI implements accessing and processing of the TDM E1 or IMA E1 on the UNI side. On the NM
system, the board is displayed as R16E1B (TDM+IMA) and runs in ML-PPP mode.
R16E1B Board FunctionsSupports processing 16–channel E1 service, and supports 75 Ω and 120 Ω E1 Interfaces.Supports E1 clock recovery.Supports 16–channel E1 re-timing.Supports extraction clock of the first two-channel E1 line.Supports encapsulation/de-encapsulation of ATM signal.Supports encapsulation/de-encapsulation of PWE3 messages.Supports Unstructured Data Transfer (UDT) and Structured Data Transfer (SDT) circuit emulation modesSupports 1–8 ML-PPP groups, with each one supporting 1–16 E1 linksThe ML-PPP protocol is compliance with RFC 2686 specifications.The delay compensation of the ML-PPP member group is less than 1ms.Cooperating with the E1 protection board RE1PI to realize two groups of 1:2 tributary protection.
16XE1 Protection Processing Board R16E1B
Board Slot Configuration of Two Groups of 1:2 Tributary Protection
NO.
R16E1B Slot Configuration
RE1PI Slot Configuration
Working Board Slot Protection Board Slot
1 5# and 7# 3# 2#
2 6# and 8# 4# 1#
16XE1 Protection Processing Board R16E1B
Front Panel
1. Captive screw 2. Board running indicator/Board protecting indicator (RUN/MS) : Yellow-green3. Board alarm indicator (ALM) : Red4. Extractor
16XE1 Protection Processing Board R16E1B
Board Indicator Status RUN/MS of R16E1B board is a bi-color indicator (yellow and green). Green indicator refers to the non-protection running status, and yellow indicator
refers to the protection running status.
Working Status
Indicator Status
RUN/MS
(Yellow/Green Bi-color)ALM (Red)
The board runs properly without alarm
(non-protection status)Flashing (0.5 time/second) (green) OFF
The board runs with alarm
(non-protection status)Flashing (0.5 time/second) (green) ON
The board runs properly without alarm
(protection status)Flashing (0.5 time/second) (yellow) OFF
The board runs with alarm
(protection status)Flashing (0.5 time/second) (yellow) ON
E1 Interface Board RE1PI
Board Functions The E1 interface protection board RE1PI provides E1 interface
for the R16E1B board
RE1PI Board FunctionsProvides 32–channel E1 interface, cooperating with the R16E1B boardReceives the switching command from the main control board, and performs line switchingCommunicates with the RSCCU3 board, and transmits data information
E1 Interface Board RE1PI
Front Panel
1. Captive screw2. Board running indicator (RUN)3. Board protecting indicator (MS)4. E1 electrical interface (1-32)5. Extractor
Board Working StatusIndicator Status
RUN (Green) MS (Yellow)
Board runs properly
(non-protection status)
Flashing
(0.5 time/second) (green)-
Board runs properly
(protection status)-
Flashing
(0.5 time/second) (yellow)
Board Indicator Status
E1/T1 Service Sub-card TPS Protection Two Groups of 1:2 Tributary Protection
P1 protect W1 、 W2 P2 protect W3 、 W4 The first 16 E1 interface of Slot 1 board to Slot 6 board ; The last 16 E1 interface of Slot 1 board to Slot 8 board ; The first 16E1 interface of Slot 2 board to Slot 5 board ; The last 16 E1 interface of Slot 2 board to Slot 7 board ;
P2
W3W4
P1
W1W2
Board Function
Main control switching clock Board Service Board Power Board
RPWD3 RPWA3
Fan Board
DC Power Supply Board RPWD3 Board Functions
The DC power board RPWD3 inputs - 48 V DC power and outputs - 48 V DC secondary power, and supplies power for boards on sub-rack through the backplane.
RPWD3 Board FunctionsUses 1+1 backup mode so that the power can be provided by two groups of DC powerProvides function of over current protection. When the internal current of equipment is over the current rating, power supply board will cut off the internal power supply for equipment.Provides over-voltage and under-voltage detection. When the external supply voltage is too low, under-voltage alarm occurs.When the external supply voltage is too high, over-voltage alarm occurs.Avoids reverse connection of power input endSupports hot plugging function for boards
DC Power Supply Board RPWD3
Board Working StatusIndicator Status
RUN (Green)
Board runs properly ON
Board runs improperly OFF
Front Panel
Board Indicator Status
1.–48V RTN terminal :used to connect –48 V power supply grounding cable.
2.–48V terminal :used to connect –48 V power supply cable.
1 2
AC Power Supply Board RPWA3
Board Functions The AC power board RPWA3 inputs 220 V/110 V AC power and outputs - 48 V
DC secondary power, and supplies power for boards on sub-rack through the backplane.
RPWA3 Board FunctionsUses 1+1 backup mode to make the two groups of AC power supply modules supply power at the same timeProvides function of over current protection. When the internal current of equipment is over the current rating, power supply board will cut off the internal power supply for equipment.Provides over-voltage and under-voltage detection. When the external supply voltage is too low, under-voltage alarm occurs. When the external supply voltage is too high, over-voltage alarm occurs.Supports hot plugging function for boards
AC Power Supply Board RPWA3
Board Working StatusIndicator Status
RUN (Green)
Board runs properly ON
Board runs improperly OFF
Front Panel
100–240 V power supply socket
Board Indicator Status
Board Function
Main control switching clock Board Service Board Power Board Fan Board
RFAN3
Fan Board RFAN3
Board Functions The fan board RFAN3 is the core of ZXCTN 6300 fan rack.
RFAN3 Board FunctionsIn the left side of the case (see from the front), some fans inhale the air from the internal. In the right side of the case, it is an air inlet. This forms an air duct from the right to the left.The cold flows inhaled by the fans exchange with the hot flows of the power supply board. The heating chip uses aluminum radiator to dissipate heat.Receives speed control signal from the main control clock switching board to control fun speedDetects fan alarm information and reports it to the main control clock switching boardDetects fan information and the driving pan indicator displays fan status. Any fan has faults, the panel indicator ALM (Red) is off.
Fan Board RFAN3 Front Panel
1. Board running indicator2. Board alarm indicator3. Locket button4. Safety warning mark5. Carrying handle
Board Working StatusIndicator Status
RUN (Green) ALM (Red)
Board runs properly ON OFF
Board runs improperly OFF ON
Board Indicator Status
Course Outline
ZXCTN 6300 ( V1.1 ) Product Hardware Introduction Product Overview System Structure Board Function Performance and index
ZXCTN 6300 ( V1.1 ) Product Performance list
Power Indicators Service Performance Reliability Indicators Ethernet Performances Clock Time Performances Protection Switching Performance Interface Performances
Power Indicators Power Supply Requirements
Power Module Code Input Voltage (V) Voltage Range (V)
RPWD3 -48 DC -59.5~-40.0
RPWA3 110/200 AC 90.0 ~290.0
Power Consumption Indexes The overall power consumptions are different according to different configurations
and the maximum power consumption is less than 500 W. The power consumption of ZXCTN 6300 with typical configuration is listed below:
Name Quantity Name Quantity
Subrack (with Backplane) 1SET R4CSB 1Piece
RSCCU3 2Piece R4ASB 1Piece
R1EXG 2Piece R16E1 ( 75 ) 2Piece
R8EGF 2Piece RFAN3 1Piece
R8EGE 2Piece RPWD3 2Piece
Actual Total Power Consumption 424W
ZXCTN 6300 supports the service switching with packets as core. The service processing capability is shown below :
ZXCTN 6300 provides various service interfaces. The types and number of interfaces are shown below:
Service Performance
Backplane Capacity Switching Capacity (dual-direction)
Packet transmit rate
440Gbps 176Gbps 130.95 Mbps
Interface Type InterfaceMaximum Service Inputs of
Each Service Board
Maximum Service Inputs of
Each Subrack
Ethernet
10GE(Optical) 1 4
GE (Optical) 8 48
GE (Electrical) 8 48
GE ( Combo ) 4 24
ATMIMA E1 32 96
ATM STM-1 4 24
TDM
TDM E1 32 96
Ch.STM-1 4 24
Ch.STM-4 1 6
Ch.POS STM-4 2 12
Ch.POS STM-1 4 24
Reliability Indicators
ZXCTN 6300 Reliability Indicators
Item Indicator Requirement
Product Lifetime Not less than 20 years
Board Failure Rate Less than 0.2 %MTTR Less than 0.5 hours
MTBF Not less than 100000 hours
Ethernet Performances
Basic Ethernet Performance
Item Description
Max. System Throughput 88Gbit/s
Min. Forward Delay ≤20us ( 64K packets )Packet Loss Ratio ≤1.0E-4
Min. Frame Length 64 bytes
Max. Frame Length 1518 bytes (without VLAN tag)
1522 bytes (with VLAN tag) )2000 bytes ( Enable Jumbo frame on FE interface )9216 bytes (Enable Jumbo frame on FE interface)
9216 bytes (Enable Jumbo frame on GE interface)
Unicast Service Forwarding
Non-Head-of-Line-Blocking
When unicast service on one input port is forwarded
to multiple output ports, services sent from this input port
can be forwarded to other output ports in case congestion
occurs on one or a few output ports.
Ethernet Performances
Quantity of VLAN ID All Ethernet interfaces of ZXCTN 6300 can identify C-VLAN ID 1-
4094 according to IEEE 802.1Q , and VLAN ID 1-4094 can be configured on all Ethernet interfaces.
Quality of Ethernet EVC Services
Service Type Performance Indicator (Piece)
E-LINE 1K
E-LAN+E-TREE 64
Ethernet Performances MAC Address Performance
ACL and other Performance
Item Performance IndicatorMAC Address Table Capacity 32K pieces
MAC Address Learning Speed 1500/s
MAC Address Aging Time 60s-630s ( default time:360s )
Item Performance IndicatorIngress ACL Entries 2K
Egress ACL Entries 512
LACP
Group 8 pieces
Max Port Number in Each Group 8 pieces
Multicast L2 Multicast Entries 1K pieces
MSTP Entity quantity 16
Ethernet Performances Route Performance
Item Performance Indicator
ARP Table Capacity 1K
IPv4 host routing table 1K
IPv4 network routing table 4K
L3 interface table 64
MPLS-TP Performance
Item Performance Indicator
MPLS-TP Static Routes Number 64
MPLS-TP Tunnels Number 2K
MPLS-TP Label Range 16-1048575
MPLS-TP (TMC/TMP/TMS)
OAM instances Number (fast/slow)
TMC:32/4K / TMP:512/2K / TMS:8/8
MPLS-TP Linear Protection Groups Number 512
MPLS-TP Ring Network Instances Number 4
Clock Time Performances Synchronous Clock Source
ZXCTN 6300 system provides 30 synchronous clock sources at most. RSCCU3 board provides :
– 2 GPS interface synchronous clock source– 1 BITS interface synchronous clock source
Service card slot provides :– Each slot provides 2 synchronous clock sources (the first two)
ZXCTN 6300 subrack provides 2 RSCCU3 card slot and 12 service card slots.
Clock Synchronization Performances ZXCTN 6300 clock synchronization performances meet requirements of
the following standards: YD1011 ( 1999 ) YD1012 ( 1999 ) ITU-T G.810 ( 1996–08 ) ITU-T G.812 ( 2004–06 ) ITU-T G.813 ( 2003–03 ) ITU-T G.823 ( 2000–03 )
Clock Time Performances
Time Synchronization Performances 1588 Time Performances
Timer Precision : timeslot unit of IEEE 1588 absolute time timer within ZXCTN 6300 system is ns and the worst timer precision is 10ns.
Time Transfer Precision : In the time transfer network composed by ZXCTN 6300 systems, all nodes synchronize clocks through synchronous Ethernet or other modes. The difference of absolute time transfer is less than 1us after master and slave interfaces of 10 nodes synchronize their clocks.
GPS Clock Performances ZXCTN 6300 supports 1 input and output of phase
synchronization information (1PPS) and absolute time P2P time transfer is tested in the network with at least 30 bor
der clock nodes.
Clock Time Performances
Time Synchronization PerformancesItem Performance Indicator
1pps time transfer
Processed PTP nodes (border
clock) number
30/us
Processed E2E nodes number 30/us
Processed P2P nodes number 30/us
1pps single node
Time transfer
Phase precision indicator
of passing border
clock back to back
10GE : 24 ns 、 GE : 24 ns 、 FE :50 ns
Output frequency precision
of passing border
clock nodes
<4.6 ppm
1pps p2p time transfer
Indicator (passing at
least 30 border clock nodes)
Output Phase Precision 1 us
Output Frequency
Precision
<4.6 ppm
Output Jitter ±200 ns
Protection Switching Performance Ring network protection switching time is tested to one ring network
composed of 16 ZXCTN 6300 nodes without protection hold-off.
Protection switching hold-off time and wait to restore time (WTR)
Protection Type Performance Indicator
1+1 path protection Less than 50ms
1:1 path protection Less than 50ms
1+1 SNC protection Less than 50ms
1:1 SNC protection Less than 50ms
ZESS protection Less than 30ms
MPLS-TP Wrapping ring network protection Less than 50ms
PW dual-home protection Less than 50ms
Type Period Step
Protection Hold-off Time 0-10 s 100 ms
Wait to Restore Time (WTR) 1-12 min 1 min
Ethernet Interface Performances FE Interface Performances
ZXCTN 6300 supports 10 Mbit/s and 100 Mbit/s Ethernet interfaces. Interface conforms to IEEE 802.3 standards and IEEE 802.3u standards.
Electrical Interface Performances– 10 Mbit/s Ethernet Interface : 10 Mbit/s Ethernet interface conforms to IEEE 802.3
standards,physical interface adopts Manchester Code, and cable adopts 10Base-T.– 100 Mbit/s Ethernet Interface : 100 Mbit/s Ethernet interface conforms to IEEE 802.3u standards
and cable adopts 100Base-TX (twisted-pair cable).
Optical Interface Performances– FE optical interface adopts 100Base-FX module– Receiver sensitivity and receiver overload optical power are tested in condition of BER=1×10-10.
Item Performance Indicator
100Base-FX
Multimode
100Base-FX
Singlemode
(Short Distance)
100Base-FX
Singlemode
(Medium Distance)
Transmission Distance (km) 2 15 40
Working Wavelength (nm) 1270 ~ 1380 1261 ~ 1360 1261 ~ 1360
Average Optical Transmit Power (dBm) -20 ~ -14 -11.5 ~ -8.0 -5 ~ 0
Receiver Sensitivity (dBm) -30 -31 -34
Receiver Overload Optical Power (dBm) -14 -8 -9
Min. Extinction Ratio (dB) 10 9 10
Ethernet Interface Performances GE Interface Performances
GE interface (that is 1000 Mbit/s Ethernet interface) of ZXCTN 6300 conforms to IEEE 802.3z standards and adopts SFP optical module. Interface types can be 1000Base-SX and 1000Base-LX.
Receiver sensitivity and receiver overload optical power are tested in condition of BER=1×10-10.
Item Performance Indicator
1000Base-SX
Multimode
1000Base-LX
Singlemode
(Short Distance)
1000Base-LX
Singlemode
(Long Distance)
Transmission Distance (km) 0.275 10 80
Working Wavelength (nm) 830 ~ 860 1270 ~ 1355 1540 ~ 1570
Average Optical Transmit Power (dBm) -9.5 ~ -4.0 -9.5 ~ -3.0 0 ~ 5
Receiver Sensitivity (dBm) -17 -20 -22
Receiver Overload Optical Power (dBm)
0 -3 0
Min. Extinction Ratio (dB) 9 9 9
Ethernet Interface Performances 10GE Interface Performances
10GE interface (that is 10000Mbit/s Ethernet interface) of ZXCTN 6300 conforms to IEEE 802.3z standards and adopts SFP optical module. Interface types can be 10GBase-SX and 10GBase-LX.
Receiver sensitivity and receiver overload optical power are tested in condition of BER=1×10-10.
Item Performance Indicator
10GBase-SR
( XFP-M300 )10GBase-LR Single
mode
( XFP-L10K )
10GBase-ER Singlemode
( XFP-L40K )
Transmission Distance (km) 0.3 10.0 40.0
Working Wavelength (nm) 830 ~ 860 1260 ~ 1355 1530 ~ 1565
Average Optical Transmit Power (dBm) -7.3 ~ -1.0 -6.0 ~ -1.0 -2.0 ~ 1.0
Receiver Sensitivity (dBm) -11.1 -10.3 -11.3
Receiver Overload Optical Power (dBm)
-1 0.5 -1
Min. Extinction Ratio (dB) 3 3.5 3
STM-1 Interface Performance The line code pattern of optical interface is compliant with regulations of the level-7 synchronous
scramblers in ITU-TG.707 Recommendations. For receiver sensitivity and overload optical power indexes, the test is done in the case of
BER=1×10-10. For STM-1 optical interface, 1UI=6.43 ns. 1 ppm = 1X10-6.
Item Performance Indicator
Nominal rate 155520 kbit/s
Transmission pattern NRZ scramble code
Type of optical interface S-1.1 L-1.1 L-1.2
Working Wavelength (nm) 1261~1360 1280~1335 1480~1580
Transmission Distance (km) ≤15 ≤40 ≤80
Max mean transmitting optical power (dBm) -8 -8 0
Min mean transmitting optical power (dBm) -15 -15 -5
Min. Extinction Ratio (dB) 8.2 10.0 10.0
Receiver Sensitivity (dBm) -28 -34 -34
Receiver Overload Optical Power (dBm) -8 -10 -10
Permitted frequency offset at optical input interface ±20 ppm
STM-4 Interface Performance The line code pattern of optical interface is compliant with regulations of the level-7
synchronous scramblers in ITU-TG.707 Recommendations. For receiver sensitivity and overload optical power indexes, the test is done in the case of
BER=1×10-10. 1 ppm = 1X10-6.
Item Performance Indicator
Nominal rate 622080 kbit/s
Transmission pattern NRZ scramble code
Type of optical interface S-4.1 L-4.1 L-4.2
Working Wavelength (nm) 1274 ~ 1356 1280 ~ 1335 1480 ~ 1580
Transmission Distance (km) ≤15 ≤40 ≤80
Max mean transmitting optical power (dBm) -8 2 2
Min mean transmitting optical power (dBm) -15 -3 -3
Min. Extinction Ratio (dB) 8.2 10.0 10.0
Receiver Sensitivity (dBm) -28 -28 -28
Receiver Overload Optical Power (dBm) -8 -8 -8
Permitted frequency offset at optical input interface ±20 ppm
POS Interface Performance
ZXCTN 6300 POS provides interfaces with the rate of STM-1 and STM-4, which use pluggable STM-1 and STM-4 optical modules.
Item Performance Indicator
Interface Rate 100 M speed : 1 ~ 46 VC12 virtual concatenations
1000 M speed : 7 VC4 or 21 VC3 virtual concatenations
LCAS member deletion ≤50 ms
LCA member recovery ≤50 ms
Electrical Interface Performances Performance indicators of ZXCTN 6300 E1 (TDM E1 and IMA E1)
electrical interface
Item Performance IndicatorNominal Rate 2048kbit/s
Pattern High Density Bipolar 3 (HDB3)
Allowed Attenuation of the Input Port (Square Root Regular Attenuation)
0dB~6dB , 1024kHz
Permitted Input Port Frequency Offset >±50ppm
Output Port Rate Bit Error Tolerance <±50ppm
Load Impedance Testing 75Ω or 120Ω
Inlet Interference Resistance Capability (Signal-Noise ratio: S/N)
18dB
1ppm1×10-6 1UI=488 ns for 2048kbit/s Interface