China Supplier HUAWEI MA5616 IP VDSL DSLAM supports CVLC VDGE VDSH VDTH VDSE VDLE VDLF VDMM VCMM

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$500.00 - $1,500.00 / Units | 1 Unit/Units MA5616 (Min. Order)
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Overview
Quick Details
Place of Origin:
Guangdong, China (Mainland)
Brand Name:
Huawei
Model Number:
MA5616
Model:
MA5616
Control board:
CCUB, CCUC,CCUD, CCUE
Service:
ADSL, VDSL SHDSL,ETH,P2P,POTS
Service board:
ASRB,ASPB,DSLD,ADLE,CALE,CVLC,VDGE,VDSH,VDTH,VDLE
Power board:
PAIA,PAIC,PAIB,PDIA,PDVA,PDVAA
Fan tray:
FCBB
Product Features:
10G GPON Upstream Transmission
Vectoring Broadband Service Speedup:
Flexible Configurations
Combo Boards and P2P Board:
Various Services
IPv6:
Carrier-Class Reliability Design
Supply Ability
Supply Ability:
300 Set/Sets per Week Brand-new MA5616
Packaging & Delivery
Packaging Details
With the original package or wooden case.
Port
Shanghai
Lead Time :
Within 5 business days after receiving the payment.

China Supplier HUAWEI MA5616 IP VDSL DSLAM supports CVLC VDGE VDSH VDTH VDSE VDLE VDLF VDMM VCMM

Product Overview

 

 Brand-new MA5616 IN STOCK

 

 

 

Product Positioning

The SmartAX MA5616 Multi-service Access Module (MA5616) is a board-pluggable box-type device of 2 U high and 19 inch wide. It supports service access in ultra-high bandwidth and flexible service expansion. The MA5616 provides the following user ports: asymmetric digital subscriber line 2 plus (ADSL2+), very-high-speed digital subscriber line 2 (VDSL2), single-pair high-speed digital subscriber line (SHDSL), plain old telephone service (POTS), integrated services digital network (ISDN). It can be used in fiber to the building (FTTB), fiber to the curb (FTTC), and dedicated line access scenarios, and can also be used as a mini digital subscriber line access multiplexer (DSLAM) or a multiservice access node (MSAN) to provide traditional voice, data, and video services.

 

Application Scenarios

 

This topic describes the application scenarios of the MA5616.

Figure 1 Position of the MA5616 on the network 

DSL: digital subscriber line

IMS: IP multimedia subsystem

NGN: next generation network

OLT: optical line terminal

POTS: plain old telephone service

 
  • FTTB or FTTC network: The MA5616 can be used in FTTB or FTTC scenarios to provide voice, data, and video services for residential area users.
  • Mini DSLAM or MSAN network: The MA5616 can function as a traditional mini DSLAM or MSAN to provide traditional voice, data, and video services. One MA5616 or multiple MA5616 devices (cascaded) can form a tree network suiting various service requirements. They can also form a Multiple Spanning Tree Protocol (MSTP) network to provide a load sharing function for redundant links and protect services.
     NOTE:
    • The MA5616 supports cascading.
    • In mini DSLAM or MSAN scenarios, you are advised to cascade a maximum of three layers of devices to the MA5616 in a tree network. In an MSTP ring network, you are advised to deploy a maximum of four MA5616 devices on the ring.
    • For more details about the FTTB or FTTC solutions, see the FTTx Solution Overview.

Product Features

This topic describes the features of the MA5616.

10G GPON Upstream Transmission

  • 10G gigabit-capable passive optical network (GPON) is a next-generation PON standard defined by International Telecommunication Union - Telecommunication Standardization Sector (ITU-T). It provides asymmetric upstream and downstream rates, with a maximum upstream rate of 2.5 Gbit/s and a maximum downstream rate of 10 Gbit/s. 10G GPON provides a higher bandwidth to meet service requirements.
  • 10G GPON networks can coexist with the current GPON networks to fully use the existing optical distribution network (ODN) resources.

Vectoring Broadband Service Speedup

The MA5616 supports the Vectoring technology to increase the very-high-speed digital subscriber line 2 (VDSL2) line rate.

VDSL2 is a mainstream mode for last kilometer access and shows increasing importance in bandwidth usage. VDSL2 uses high frequency bands and therefore the inter-line crosstalk has an evident impact on line quality. The bandwidth in multi-pair access scenario is much lower than the bandwidth in single-pair access scenario. Crosstalk becomes a major factor affecting the VDSL2 performance.

The Vectoring technology uses Vectoring groups to jointly transmit signals in the downstream direction and receive signals in the upstream direction of a VDSL2 line. This function of theMA5616 helps cancel the far-end crosstalk (FEXT) and improve the performance of a VDSL2 line.

The Vectoring function brings the following values for carriers:
  • Increasing the bandwidth in multi-pair access scenarios by 50% to 90% so that the revenue per each VDSL2 user will grow greatly
  • Providing higher-bandwidth services over the existing VDSL2 lines

Flexible Configurations

The MA5616 supports concurrent working of multiple types of service boards. Numbers of various ports are configured flexibly according to actual requirements, increasing the loading rate and meeting diversified customer demands. For details about the flexible configuration supported by the MA5616, see Hardware Configuration.

Combo Boards and P2P Board

The MA5616 has a combo board design for supporting a high subscriber density. Combo boards save carriers' construction expenditure, require less deployment space, wiring workload, and time occupancy of the main distribution frame (MDF). Briefly, combo boards reduce carriers' maintenance costs.
  • The CALE board has a 32-port built-in splitter and supports service access of 32 asymmetric digital subscriber line 2 plus (ADSL2+) ports and 32 plain old telephone service (POTS) ports.
  • The CVLC board has a 32-port built-in splitter and supports service access of 32 VDSL2 ports and 32 POTS ports.

Various Services

  • Supports Internet Group Management Protocol (IGMP) v2 and v3 to provide IPTV, high definition TV, and video conference services.
  • Supports basic voice services such as call, fax, and modem services, and supplementary voice services such as three-way calling, call waiting, call transfer, calling line identification presentation, and calling number restriction services.

IPv6

  • The CCUE control board of the MA5616 supports IPv6. Compared with IPv4, IPv6 features simplified packet header format, sufficient IP addresses, hierarchical IP address structure, flexible extension header, and enhanced neighbor discovery mechanism.
  • Supports IPv6 address management and allocation, IPv6 routing, quality of service (QoS) and security, Layer 2 transparent transmission, and multicast services.

On-Site Deployment and Plug-and-Play

  • Is free of software commissioning on site.
  • Supports offline deployment and plug-and-play.
  • Automatically obtains configuration data from the iManager U2000 network management system (U2000) and reports its status to the U2000 after going online. The configuration data automatically takes effect.

Zero Touch Routine Maintenance

  • Supports remote fault location and troubleshooting.
  • Supports remote acceptance.
  • Supports remote upgrade and patch installation.

Carrier-Class Reliability Design

  • Complies with carrier-class reliability specifications.
  • Passes the electrostatic discharge (ESD) test.
  • Is able to start at a -25°C temperature and to work properly for extended periods of time at a temperature as low as -40°C .
  • Is able to work properly at a temperature as high as 65°C (temperature at the air intake vent of the cabinet) for extended periods of time.
  • Provides surge protection and anti-interference functions.
  • Supports user port protection as follows:
    • Digital subscriber line (DSL)/POTS/integrated services digital network (ISDN) ports: complying with K21, 4 kV in common mode and in differential mode
  • Supports power protection as follows:Uses an anticorrosion design, reduces the wires routed across the surface of the board, and optimizes the heat design by producing a temperature difference to prevent condensation.
    • DC power: 5 kV in common mode and 3 kV in differential mode
    • AC power: 6 kV
More details

 Device Appearance

The MA5616 chassis is 2 U (88.9 mm) high and consists of six board slots and a fan tray. Two mounting ears are equipped for fixing the device in a 19-inch cabinet or rack.

 
Figure 1 Appearance and structure of a DC-powered MA5616 
 
 
 CCUE, the latest control board
 
 
 
 
CCUB
 
 
CCUD
 
ADLE ADSL Service Board
 
Brand-new MA5616 with CCUD Control Board
 

Hardware Configuration

Slot 0 of the MA5616 houses the control board, slots 1 through 4 house service boards, and slot 5 houses the power board.

 
Figure 1 Hardware configuration of the MA5616 
Table 1 describes the functions of the control board and service boards supported by the MA5616.
 NOTE:
For more details about the functions of the following boards, see the MA5616 Hardware Description.
Table 1 Boards supported by the MA5616
 

Board Type

Abbreviated Name

Description

Function

Slot

Control board

CCUE

Central control unit board

Aggregates upstream services, manages the device, and manages the service of each interface module.

0

Service board

ASRB

32-port narrowband service board

Supports the voice over IP (VoIP) and plain old telephone service (POTS) services.

1–4

ASPB

64-port narrowband service board

Supports the VoIP and POTS services.

DSLD

8-port integrated services digital network (ISDN) service board

Supports ISDN service access in eight channels. Four ISDN ports can connect to one base transceiver station (BTS), and each DSLD board can connect to two BTSs.

ADLE

32-port asymmetric digital subscriber line 2 plus (ADSL2+) service board

Supports ADSL2+ over POTS service access in 32 channels and has a built-in splitter.

CALE

32-port ADSL2+ and POTS service combo board

Supports ADSL2+ and POTS service access each in 32 channels.

CVLC

32-port very-high-speed digital subscriber line 2 (VDSL2) and POTS service combo board

Supports VDSL2 and POTS service access each in 32 channels.

VDGE

16-port VDSL2 over POTS service board

Supports VDSL2 over POTS service access in 16 channels. It supports the following frequency spectrum profiles: 8a, 8c, 8d, 12a, 12b, 17a, and 30a.

1–4

VDSH

24-port VDSL2 over POTS service board

Supports VDSL2 over POTS service access in 24 channels. It supports the following frequency spectrum profiles: 8a, 8b, 8c, 8d, 12a, 12b, and 17a.

VDTH

24-port VDSL2 over ISDN service board

Supports VDSL2 over ISDN service access in 24 channels. It supports the following frequency spectrum profiles: 8a, 8b, 8c, 8d, 12a, 12b, and 17a.

VDSE

24-port VDSL2 over POTS service board

Supports VDSL2 over POTS service access in 24 channels and has a built-in splitter. It supports the following frequency spectrum profiles: 8a, 8b, 8c, 8d, 12a, 12b, and 17a.

VDLE

32-port VDSL2 over POTS service board

Supports VDSL2 over POTS service access in 32 channels and has a built-in splitter. It supports the following frequency spectrum profiles: 8a, 8c, 8d, 12a, 12b, and 17a.

VDLF

32-port VDSL2 service board

Supports VDSL2 service access in 32 channels and has a built-in splitter. It supports the following frequency spectrum profiles: 8a, 8c, 8d, 12a, 12b, and 17a.

VDMM

48-port VDSL2 over POTS service board

Supports VDSL2 over POTS service access in 48 channels. It supports metallic loop test (MELT) and the following frequency spectrum profiles: 8a, 8b, 8c, 8d, 12a, 12b, and 17a.

NOTE:

The VDMM board can only be used when a DC power board or an AC power board PAIC is configured on the MA5616.

VCMM

48-port VDSL2 service board

It supports the following functions:
  • 48 ports of VDSL2 over POTS access
  • 8a, 8b, 8c, 8d, 12a, 12b, and 17a spectrum profiles
  • Metallic loop test (MELT)
  • system-level Vectoring function
NOTE:

The VCMM board can be used only when the PDVAA DC power board is configured on the MA5616.

SHLH

16-port single-pair high-speed digital subscriber line (SHDSL) service board

Supports SHDSL service access in 16 channels and supports asynchronous transfer mode (ATM) SHDSL and Ethernet in the first mile (EFM) SHDSL access modes.

Power board

PAIA

AC power board

  • Converts the AC input into –48 V DC, +12 V DC, and +3.3 V DC, and does not support batteries.
  • Supports a total output power of 200 W.

5

PAIC

AC power board

  • Converts the AC input into –48 V DC, +12 V DC, and +3.3 V DC, and does not support batteries.
  • Supports a total output power of 400 W.

PAIB

AC power board supporting batteries

Converts the AC input into –48 V DC, +12 V DC, and +3.3 V DC, and supports batteries.

PDIA

DC power board

It is available in two models: H831PDIA and H832PDIA.
  • The H831PDIA board supports conversion of one -48 V DC input.
  • The H832PDIA board supports conversion of two -48 V DC inputs.
Both the power boards meet -48 V DC, +12 V DC, and +3.3 V DC power supply requirements of the MA5616.

PDVA

DC power input interface board

Converts dual channels of –48 V DC input into –48 V DC, +12 V DC, and +3.3 V DC to meet the power supply requirements of the chassis.

PDVAA

DC power input interface board

  • Supports one -48 V DC input.
  • Supports a total output power of 400 W.

Fan tray

FCBB

Fan control board

Fans are used to cool the system. This board provides an E2PROM circuit for storing the board manufacturing information.

The MA5616 can control and monitor fans and supports soft start of the fan tray.

 
 

Product and Functions

The feature list provides all features supported by an MA5616.

Table 1 Feature list
 

Classification

Feature

10G gigabit-capable passive optical network (GPON)

10G GPON is a next-generation PON standard defined by International Telecommunication Union - Telecommunication Standardization Sector (ITU-T). It provides asymmetric upstream and downstream rates, with a maximum upstream rate of 2.5 Gbit/s and a maximum downstream rate of 10 Gbit/s. 10G GPON uses the following key technologies:
  • Burst optical/electric
  • Ranging
  • Forward error correction (FEC)
  • Line encryption
  • Dynamic bandwidth assignment (DBA)

Vectoring

The Vectoring technology uses Vectoring algorithms to cancel inter-line crosstalk for multi-pair very-high-speed digital subscriber line 2 (VDSL2) lines so that VDSL2 line bandwidths can be increased significantly. In this technology, the Vectoring control entity (VCE) uses various technologies to cancel inter-line crosstalk in upstream and downstream directions:
  • Downstream: pre-coding technology
  • Upstream: canceling technology

Layer 2 management

  • MAC address management
  • Virtual local area network (VLAN) management
  • Flow bundle
  • Layer 2 forwarding policiesLayer 2 isolation
    • Outer VLAN+MAC forwarding
    • Service VLAN (SVLAN)+customer VLAN (CVLAN) forwarding
  • Layer 2 bridging
  • Transparent transmission of protocol packets
  • 1:1 virtual MAC address (VMAC)

Quality of service (QoS)

  • Priority processing
  • Congestion management
  • Traffic policing
  • Service priority marking
  • Queue scheduling
  • Queue buffering
  • Traffic shaping
  • Access control list (ACL) policies

Emulation services

  • Point-to-Point Protocol over Ethernet (PPPoE) dialup emulation
  • Dynamic Host Configuration Protocol (DHCP) dialup emulation
  • Multicast service emulation

Layer 3 features

  • VLAN Layer 3 interface
  • Address Resolution Protocol (ARP)
  • Domain name service (DNS) client
  • Static route

Voice services

  • Voice over IP (VoIP)Fax over IP
    • Public switched telephone network (PSTN)
    • Integrated services digital network (ISDN) basic rate access (BRA)
  • Modem over IP

Networking features

  • Multiple Spanning Tree Protocol (MSTP)
  • Link Aggregation Control Protocol (LACP)
  • PON type B protection

User security

  • Policy Information Transfer Protocol (PITP)
  • DHCP option82
  • Anti-MAC address flapping
  • Anti-MAC address spoofing
  • Anti-IP address spoofing
  • Access user isolation
  • Ring check

System security

  • Source IP address filtering
  • Source MAC address filtering
  • Destination MAC address filtering
  • Anti-denial of service (DoS) attack
  • Anti-IP packet attack
  • Anti-Internet Control Message Protocol (ICMP) packet attack
  • Source route filtering
  • Firewall
  • Blacklist

Operation and maintenance security

  • User account and password management
  • Authentication, encryption, and access control based on Simple Network Management Protocol (SNMP) v3
  • Setting of an independent security administrator
  • Encryption for file transfer
  • Encryption for remote management and connection
  • Logging of security events

Line security

  • Advanced Encryption Standard (AES) 128 encryption for GPON downstream transmission

Operation and maintenance features

  • Startup time optimization
  • Local operation and maintenance
  • Remote operation and user management
  • Version and data management
  • Device exception management

Environment monitoring

Provides one environment monitoring port that supports four digital parameters (default: smoke, door status, surge protection, and main distribution frame).

 
Our Services

To know more about our products, please feel free to contact us. 

Our company can provide a solution for you according to your demand.

What's more, we will provide you with one year tech support for free. 

You don't have to worry about how to use and configure the products you buy.

 

Contact Information

Please email to us at: nathan dot liu at combasst dot com

Or add our Skype ID: nathan.liu2015

Also, you can find us on Whatsapp:+8615900562451

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