Enroll now for any of our Practical Telecoms/Infotech courses That will be Starting on the 17th of October to 18th of November(1st Batch) or 24th of October to 24th of November 2015(2nd Batch).Certificate from California U.S.A will be issued to only fiber Optics/Microwave radio transmission Trainee that will help you get a VISA to Canada(Permanent residence). All courses are intended for Technicians,Engineers and Non Engineers who wants to Switch career or Profession.
Duration for all courses is 4 weeks:
1.Microwave radio Transmission Engineering Technology (Commissioning,Implementation,O&M and Planning)......50k
2.Fiber-Optics Transmission Engineering(Implementation Only).............50k
3.Base Transceiver Station/RF Engineering(2G/3G Implementation/Commissioning Only).....80k
4.DWDM(Planning Only).......80k
5.OSN(Planning,Commissioning and Implementation)...80k
6.CCNA R/S( 200 120) new....40k
7.CCNA Security(640 554).......40k
8.CCNA Voice(640 461)...........40k
9.CCNA Data center(640 911)..40k
10.CCNA Service Provider(640 875)..40k
11.CCNA Wireless(640 722)...40k
11.CCNP R/S with Tshoot(640 902,832,813)...40k per module
12.CCNP SIMOS(300-209) new...80k
13.CCNP SISAS (300-208) new...80k
14.CCNP SENSS (300-206) new...80k
15.CCNP SITCS (300-207) new...80k
16.CCIE R/S version 5.0 new.....250k
17.CEH (Certified Ethical Hacker)...80k
18.LAN Cabling/Wireless Devices...30k
19.IP Camera/CCTV installation and Commissioning...30k
20.REDHAT/LINUX....80k
21.VOIP Engineering.(Voice Over Internet Protocol)...40k
22.MPLS Traffic Engineering....140k
23.CFOT (Certified Fiber Optics Technician).......50k
24.CFOS/O (Certified Fiber Optics Specialist for Outside Plant)....50k
25.CFOS/H (Certified Fiber Optics Specialist for FTTH)...50k
26.CFOS/D (Certified Fiber Optics Specialist for Design)..50k
27.CFOS/I (Certified Fiber Optics Specialist for Instructors)...50k
28.Website Hosting/Designing.............................................................30k
29.Cyberoam Security Training............................................................80k
30.RF Optimization/Drive testing..........................................................80k
Visit us @ 39A Ayilara Street off Lawanson-Itire road Opposite Ojuelegba Bustop Surulere or call us on 08037676772,08188267100 or 08181355444 for registration.
Blogsite: www.neonetwirelessng.blogspot.com
CCNA R/S 200 120 PRACTICAL TRAINING
CCNA (R&S) 200-120 version 2 training from Neonetwireless provides a strong
foundation for CCNP and CCIE Certifications. A Cisco Certified Network Associate
CCNA (R&S) possesses unmatched expertise in managing Cisco devices including
IOS, LAN, WAN, TCP/IP, OSI model, troubleshooting, and switching/routing
protocols. This Associate level CCNA certification validates a candidate's ability to
effectively connect, select, configure, manage and troubleshoot Cisco network
devices.
DURATION: 4 WEEKS
Course Objectives
Understanding the basic concepts of networking and deploying simple LANs
Employing internet connectivity
Managing basic security for networking devices
Understanding IPv6 fundamentals
Troubleshooting issues in VLAN, configuring EtherChannel, understanding the
working of STP and incorporating Layer 3 redundancy
Defining the concept, components, functions and characteristics of WAN
Configuring and troubleshooting EIGRP in an IPv4 set up, and configuring EIGRP in
IPv6 environment
Installing, verifying and troubleshooting multi area OSPF
Understanding SNMP, NetFlow and syslog
Managing IOS images, licenses and Cisco devices
MODULE 1
Operation of IP Data Networks
MODULE 2
LAN Switching Technologies
MODULE 3
IP addressing (IPv4 / IPv6)
MODULE 4
IP Routing Technologies/LAB
MODULE 5
IP Services
MODULE 6
Network Device Security
MODULE 7
Troubleshooting
MODULE 8
LAN Switching Technologies/LAB
MODULE 9
IP Routing Technologies/LAB
MODULE 10
IP Services/LAB
MODULE 11
Troubleshooting/LAB
MODULE 12
CCNA R/S PRACTICAL LAB
MODULE 13
CCNA R/S PRACTICAL LAB
MODULE 14
CCNA R/S PRACTICAL LAB
foundation for CCNP and CCIE Certifications. A Cisco Certified Network Associate
CCNA (R&S) possesses unmatched expertise in managing Cisco devices including
IOS, LAN, WAN, TCP/IP, OSI model, troubleshooting, and switching/routing
protocols. This Associate level CCNA certification validates a candidate's ability to
effectively connect, select, configure, manage and troubleshoot Cisco network
devices.
DURATION: 4 WEEKS
Course Objectives
Understanding the basic concepts of networking and deploying simple LANs
Employing internet connectivity
Managing basic security for networking devices
Understanding IPv6 fundamentals
Troubleshooting issues in VLAN, configuring EtherChannel, understanding the
working of STP and incorporating Layer 3 redundancy
Defining the concept, components, functions and characteristics of WAN
Configuring and troubleshooting EIGRP in an IPv4 set up, and configuring EIGRP in
IPv6 environment
Installing, verifying and troubleshooting multi area OSPF
Understanding SNMP, NetFlow and syslog
Managing IOS images, licenses and Cisco devices
MODULE 1
Operation of IP Data Networks
MODULE 2
LAN Switching Technologies
MODULE 3
IP addressing (IPv4 / IPv6)
MODULE 4
IP Routing Technologies/LAB
MODULE 5
IP Services
MODULE 6
Network Device Security
MODULE 7
Troubleshooting
MODULE 8
LAN Switching Technologies/LAB
MODULE 9
IP Routing Technologies/LAB
MODULE 10
IP Services/LAB
MODULE 11
Troubleshooting/LAB
MODULE 12
CCNA R/S PRACTICAL LAB
MODULE 13
CCNA R/S PRACTICAL LAB
MODULE 14
CCNA R/S PRACTICAL LAB
Tuesday, 6 October 2015
PRACTICAL MICROWAVE RADIO TRANSMISSION COURSE @ 50K
MICROWAVE RADIO TRANSMISSION ENGINEERING COURSE
COURSE FEE: 50K
Oct 17th-Nov 14th 2015
Objectives
Understand basic fundamental concepts about microwave radio transmission, planning and Implementation, essential parts of microwave radio systems and microwave communications applications
Who Should Attend
The course is designed for Technicians, Engineers and planners who want to elevate HIS/HER Microwave radio Transmission Engineering skills.
Prerequisites
Participant should have a fundamental or basic understanding of wireless communications and data networking.
Duration: 4 Weeks
MODULE 1
Microwave Communication Overview
Basic Concepts of Digital Microwave
Microwave Development Course
Microwave Evolution in the World
Microwave Evolution in China
Characteristics of Digital Radio Communication System
Challenges and Opportunities for Digital Microwave Communication
Optical Fiber Communication—Biggest Challenge for Digital Microwave
Communication
Opportunities for Digital Microwave Communication
Microwave Frequency Band Choice and RF Channel Arrangements
Digital Microwave Communication System Model
Modulation Method of Digital Microwave
Channel Utilization of Each Modulation
Digital Microwave Frame Structure
Conclusion
MODULE 2
Introduction to Digital Microwave Equipment
Digital Microwave Equipment Classification
Microwave antenna and feeder
Microwave antenna
Classification of Microwave Antennas
Feeder System
Branching System
Outdoor unit (ODU)
Constituents of Digital Microwave Transmitter and Major Performance Indexes
Constituents and Major Indexes of Receiver
Indoor Unit
Installation and Adjustment of Split Microwave System
Conclusion
MODULE 3
Microwave System Networking and Application
Microwave System Typical Networking Modes and Station Types
Typical Networking Modes
Microwave Station Types
Relay Station
Passive Repeater Station
Active Repeater Station
Digital Microwave Application
Conclusion
MODULE 4
Microwave Propagation Theory
Electric Wave Propagation in Free Space
Free Space
Propagation Loss of Electric Waves in Free Space
Influence of Ground Reflection on the Electric Wave Propagation
Concept of Fresnel Zone
Influence of Ground Reflection on Receiving Level
Influence of Troposphere on Electric Wave
Ray Bend in Atmosphere
Concept of Equivalent Earth Radius
Refraction
The Meaning of K Value in Engineering Design
Fading caused by Several Atmospheric and Earth Effects
Fading Types
Influence of Troposphere on Electric Wave Propagation
Fading Rules (microwave frequency bands lower than 10 GHz
Frequency Selective Fading
Multi-path Propagation of Electric Waves
Influence of Frequency Selective Fading on Transmission Quality of Microwave
Communication Systems
Statistic Feature of Fading
Microwave Fading Model
Engineering Calculation of Fading
Conclusion
MODULE 5
Anti-Fading Technology in Digital Microwave Equipment
Overview
Purposes of Taking Anti-Fading Measures
Classification of Anti-Fading Measures
Evaluation on Anti-Fading Measures
Adaptive Equalization
AFE
ATE
Cross-Polarization Interference Counteracter (XPIC)
Automatic Transmit Power Control (ATPC
Diversity Reception
Classification of Diversity Reception
Description of Space Diversity
Compound Mode of Diversity Signals
Microwave Equipment Protection Mode
HSM
HSB
Classification of Digital Microwave Equipment Protection Modes
Interference and Main Methods against Interference
Interference Source
Basic Methods of Communication System against Interference
Conclusion
MODULE 6
Digital Microwave Engineering Calculation
Overview
Microwave Path Parameter Calculation
Microwave Station Antenna Communication Azimuth Calculation
Calculation of Path Distance
Calculation of Elevation and Minus Angles
Calculation of Clearance
Calculation of Reflection Point
Determining Antenna Gain
Calculation of Microwave Circuit Index
Calculation of Receiving Level and Flat Fading Margin
Calculation of Interference Level
Calculation of Diversity Receiving Parameter
Calculation of Circuit Interruption Rate
Rain Fading
Gas Absorption
Conclusion
MODULE 7
Microwave Engineering Design Requirement
Basic Requirement of Microwave Path and Cross-section Design
Cross Section and Station Distance
Clearance Standard
Antenna Height and Space Diversity Distance
Selecting Microwave Band and Configuring Polarization
Selecting Microwave Band
Arrangement of Microwave Frequency and Polarization
Technical Requirement of Digital Microwave Relay Communication Engineering Design
PDH Microwave Engineering Design Technical Requirement
SDH Microwave Engineering Design Technical Requirement
Access Network Technical Requirement—26 GHz Local Multiple-point Distribution
System (LMDS
Access Network Technical Requirement—3.5 GHz Fixed Radio Access
Conclusion
MODULE 8
Microwave Engineering Design
Design Method
Overview
Route, Site and Antenna Height
Frequency Selection and Polarization Arrangement
Circuit Performance Estimate
Design Example
SDH Microwave Circuit
SDH Microwave Site Type and Polarization Configuration
Conclusion
MODULE 9
Precautions in Engineering Design
Equipment Layout
Installation of Microwave Antenna
Process Requirement for the Tower
Process Requirement of New Established Tower
Orientation Requirement of Newly Established Tower
Requirement for Old Tower to be used
Conclusion
MODULE 10
Practicals
Configuration of radio links
E1 mapping and Cross-connection
Ethernet over PDH Traffic routing
1+1 HSB Implementation
1+1 SD,FD and Media Diversity
DCN over E1 or SDH
2x(n+1) XPIC
4+0 XPIC config
Native Ethernet Layer 1 Traffic Routing
1+0 non protected MW link
Qos
MW radio Performance Monitoring
E1,STM1 and RF loopback test
E1/optical BER test
E1 mapping and Cross-connection
Ethernet over PDH Traffic routing
1+1 HSB Implementation
1+1 SD,FD and Media Diversity
DCN over E1 or SDH
2x(n+1) XPIC
4+0 XPIC config
Native Ethernet Layer 1 Traffic Routing
1+0 non protected MW link
Qos
MW radio Performance Monitoring
E1,STM1 and RF loopback test
E1/optical BER test
FIBER OPTICS TRANSMISSION TRAINING @ 50K
COURSE DESCRIPTION(CFOT)
DURATION: 4 WEEKS
17th Oct-14th Nov 2015
OBJECTIVES:
This course provides participants with the knowledge and practical skills needed to successfully design, install, splice and troubleshoot using appropriate equipment including OTDR,Optical Power Meter,Light Source and VFL.
WHO SHOULD ATTEND?
Engineers, Technologist, Technicians engaged in the Implementation/maintenance of fiber
Optics links or Anybody preparing for CFOT(Certified Fiber Optics Technician) Certification.
PREREQUISITES:
Engineering/Technical qualifications
MODULE 1
What Is Fiber Optics?
Fiber Advantages
Fiber Optic Installation Safety Rules
How Optical Fiber Is Made
Fiber Design
How Fiber Works
Fiber Types
Refraction & Reflection
MODULE 2
Optical Fiber Parameters
Frequency
Attenuation
Scattering and Absorption
Dispersion
MODULE 3
What is an Optical Network?
Transmitters and Light Sources
Modulation
Laser-optimized MM fiber
Mode-Conditioning
Numerical Aperture
Mode-Field Diameter
MODULE 4
Wavelength Division Multiplexing
Amplifiers
Attenuators
Cable Types
Loose tube vs. Tight
MODULE 5
Cable Specifications
Cable Ratings & Design Criteria
Installation Techniques
Pulling Fiber Optic Cable
Cable Plant Hardware
Terminations
Connectors Types
MODULE 6
Polishing Techniques
Polishing Connectors
Termination Procedures
Splicing
Choosing a Splice Type
Splice Loss: Cause and Remedy
MODULE 7
Optical Fiber Color Code
Splicing Tips
Testing
Visual Fiber Tracer
Visual Fault Locator
Visual Connector Inspection
MODULE 8
How Far Can Fiber Go?
Measuring Power
Testing Loss
MM Fiber & Mandrel Wrapping
OTDR Testing
Certification
Documentation
MODULE 9, 10,11,12,13 and 14
PRACTICALS
Fiber Optics Cable Splicing with Fusion Splicer,Termination,Stripping,Cable Management on Closures and ODFs,Use Of OTDR,Use Of Optical power Meters and VFL
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