VLSI
FPGA Spartan 3
About Product
We supply comprehensive VLSI laboratory kits to universities and institutions, featuring 100+ hands-on experiments across 10 specialized modules including digital design, DSP, AI/ML acceleration, and SoC development. Our turnkey solutions include industry-standard FPGA boards (Zynq, Spartan-7, Artix-7, Altera), complete courseware, and technical documentation, enabling institutions to deliver job-ready training for VLSI careers.
A Gigabit Passive Optical Network lab designed by AKADEMIKA provides a safe andcontrolled environment for experimenting with different GPON configurations,network topologies, and equipment settings
It allows students to test different scenarios, evaluate performance, and identify potential issues.
GIGABIT PASSIVE OPTICAL NETWORK
A.Outside Plant (OSP) Fiber Network Design Software
B.OPTICAL NETWORK CONFIGURATION AND MANAGEMENT SYSTEMThis system should have the facility to configure and manage the Fiber Optic Network
Hardware Specification:
Minimum of 8 Gigabit ports ,
Minimum of 4 –PON Ports provided with 4 SFP
Wavelength:Tx 1490nm, Rx 1310nm
TransmissionDistance: 20 Km
Voice , Data and IPTV SupportManagement Software Specification:
Support IPv4 and IPv6 Networks
Port Status monitoring and configuration management;Configuration such as VLAN, Trunk, RSTP, IGMP, QOS, etc.
Management function: DBA, Network Unit authorization,
ACL, QOS, etc.;
Online Network Unit configuration and management
Support data encryption, multi-cast, port VLAN
Support Static & Dynamic Bandwidth Allocation
Support port based QinQ and Selective QinQ (Stack VLAN)
Support port-based/MAC-based/IP subnet-based VLAN
Remote ONT configuration for internet and voice
Support HTTP enable/disable from OLT
Inbuilt DHCP Server with DHCP
Has advance encryption standard(AES) for securing downstream traffic
AC/DCvoltages shall have protection against short circuit and overload.(Grounding point available)
Fully compliant with ITU GPON standards.C. OPTICAL NETWORK COMPONENTS
Single Mode G.652 , 9/125 , 6 Core Feeder Cables
Single Mode G.652, 9/125, 6 Core Distribution Cables
SingleMode G.657 Drop Cables
PLCOptical Splitters
Fiber Management System
Joint Enclosures
FTTHBoxes
Fiber Optic Termination Boxes
Optical Patch Chords
Optical Pigtail
0dBAdaptors
DualBand Optical Network UnitsD. OPTICAL TOOLS AND MEASURING INSTRUMENTS
Optical Time Domain Reflectometer with Event Module
Display 5.6” LCD Touch Screen
Wavelength:1310/1550 Single Mode Fiber,
DynamicRange: 32/30 dB
EventDead Zone: 3m/12m
PulseWidth: 5 ns to 1280ns
OpticalConnector Type: FC/SC
Inbuilt VFL: 650nm with Max test distance of 3 kmo Event Module: Mounted on a Sturdy Aluminum Casing containing
VariousTest Single mode Optical Fiber Network suitable for uni & bi-directional interrogation.Fusion Splicing Machine with FTTH Fiber Optic Tool Kit
Fiber alignment: Core/cladding alignment / Manual alignment
Splicing time : 9 Sec , Heating time: 22 Sec
Applicable Fibers: SM (G.652/G.657), MM (G.651),
DS(G.653), NZDS (G.655), EDF,BIF/UBIF (G.652/G.657),
MM(G.651), DS (G.653), NZDS (G.655), EDF,BIF/UBIF)
Fiberdiameter: Cladding Diameter: 90-150 micro meters
Coatingdiameter:125~1000 micro meters
SpliceLoss : 0.02dB(SM), 0.01dB(MM), 0.04dB(DS),
0.04dB(NZDS)
Return loss: Better than 60 dB
No of Motors: 4
Screen:5-inch color LCD screen is resistant to impact, scratches, and protective shell
Magnification: X/Y:115 times, X or Y:230 times
FTTH Tool Box in a Casing
Basic Fiber Measurements - Attenuation - Numerical Aperture
Multimode and Single Mode Fiber: - Bandwidth, - Dispersion, - Pulse propagation
Transmitters: -LED’s , - LASERS , - Bandwidth, - Spectra, - Modulation
Receivers - PiN, - APD detectors , SNR, Noise , Bandwidth
Coarse Wavelength Division Multiplexing and Add/ Drop of Channels
Software tool for planning OSP Fiber Network and seamless management of entire integrated infrastructure
Introduction to FTTx ( FTTH, FTTP,FTTB ) and its Architectures
PON Optical Infrastructure:
- Fiber optic cables and connectors used in PON systems.
- Installation considerations for PON infrastructure.
- Fiber distribution hubs (FDH) and optical splitters.
- Optical power budgets and loss calculations.PON System Deployment and Commissioning:
PON system installation guidelines and best practices.
Fiber optic cable routing and management. Prepare, crimp, terminate and test variouscables and connectors, use crimping tools, splicing tools and test variouscables used in FTTH network
Check various types of Splitters, connector terminations and perform Insertion Losstesting of Optical splitters in FTTH networko Installationof OLTs and ONUs at customer premises.
Testingand verification of PON links.PON System Conguration and Management:
OLT and ONU configuration parameters.
PONsystem provisioning and subscriber management.
Quality of Service (QoS) settings for PON networks.
PON network monitoring and performance optimization.
DBA profile
SFUAuthorization
HGUAuthorization
Automatic Configure the ONU By Profile
Case1 SFU Bridge
Case2 SFU Bridge With IPTV
Case3 HGU Router --Internet
Case4 HGU Router --VoIP
Case5 HGU Bridge --IPTVGPON Architecture, Interfaces and Protocols
GPON Services
Downstream and Upstream TDM Architectures
GPONStacko NetworkProtocol Support
OLT PMD and ONU PMD
Frame Structure
GPON Encapsulation Method (GEM)
GTC adaptation sub layer
GTC framing sub layer protocol stack
Transmissioncontainer (T-CONT)
PhysicalParametersPON Troubleshooting and Maintenance:
Identifying common PON network issues and their causes.
Troubleshooting PON connectivity problems.Optical time-domain reflectometry (OTDR) for PON troubleshooting.
Perform OTDR test, measure the signal strength & losses and assess cable performance using Optical Power meter
SelectFTTH network, test the fiber for any damage or break using fiber Detection OTDR meter, Check power andconfiguration of ONU/ONTPhysical Parameters affecting Network Performance
Dirty or damaged connectors/Connector mismatch/Incorrect splicing
Testing Procedures during the Construction Phase
Maintaining connectors / Characterization of IL and ORL
OTDR based TechniquesTesting Procedures – Activation Phase
Testing power in Passive Optical Networks
Testing Procedures - Maintenance Phase
Troubleshooting Live Systems
Test Documentation
PON Security and Upgrades:
Security considerations for PON networks.
Encryption and authentication techniques in PON systems.
PON system upgrade options and procedures.
Futuretrends and advancements in PON technology.
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