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Techniki Bansal
Индия
Добавлен 13 янв 2021
Heya! Welcome to techniki bansal. This is a tech channel not related to the mobile tech but the upper level. The advanced technology such as DWDM, E1 T1, PCM, PDH, SDH, MPLS, GPRS and much more...
SUBSCRIBE To help me motivate to make more such videos. TY for reading..
SUBSCRIBE To help me motivate to make more such videos. TY for reading..
What is Dense Wavelength Division Multiplex? DWDM In Hindi
What is Dense Wavelength Division Multiplex? DWDM In Hindi
This video teaches us about the introduction of full topic of DWDM which is taught in networking in electronics engineering. THis video tells us the principle on which DWDM works.
We are taught this topic by Sandeep Bansal - first in the exam of electronics. His unique and awesome style of teaching, both are just great.
Tags(Ignore)
dwdm,sdh,multiplexing,dwdm mux/demux,wdm solution,dwdm multiplexer and demultiplexer,dense wave lenght division multiplexer,optical fiber cable technology dwdm,wavelength division multiplexing (wdm),dwdm training fundamentals,dwdm technology in hindi,dwdm in urdu,dwdm network architecture,dwdm network des...
This video teaches us about the introduction of full topic of DWDM which is taught in networking in electronics engineering. THis video tells us the principle on which DWDM works.
We are taught this topic by Sandeep Bansal - first in the exam of electronics. His unique and awesome style of teaching, both are just great.
Tags(Ignore)
dwdm,sdh,multiplexing,dwdm mux/demux,wdm solution,dwdm multiplexer and demultiplexer,dense wave lenght division multiplexer,optical fiber cable technology dwdm,wavelength division multiplexing (wdm),dwdm training fundamentals,dwdm technology in hindi,dwdm in urdu,dwdm network architecture,dwdm network des...
Просмотров: 5 143
Видео
PDH (Plesichronus Digital Hierarchy)
Просмотров 6 тыс.3 года назад
PDH (Plesichronus Digital Hierarchy)
E1 T1 Lines Tutorial
Просмотров 3,8 тыс.3 года назад
With the development of communication systems to the present, voice communication is still play an important role in all communication traffic. the method used in the initial communication system is Frequency Division Multiplexing (FDM Frequency Division Multiplexing). With the pursuit of transmission rate, transmission quality, and transmission cost, digital systems such as PCM (Pulse Code Mod...
PCM - Pulse Code Modulation in Digital Communication
Просмотров 1,2 тыс.3 года назад
PCM - Pulse Code Modulation in Digital Communication Modulation is the process of varying one or more parameters of a carrier signal in accordance with the instantaneous values of the message signal. The message signal is the signal which is being transmitted for communication and the carrier signal is a high frequency signal which has no data, but is used for long distance transmission. There ...
STNMAS Project - A Step To Bring Internet in Your House In Rajasthan
Просмотров 3223 года назад
STNMAS Project - A Step To Bring Internet in Your House In Rajasthan
What is Dense Wavelength Division Multiplex? DWDM In Hindi
Просмотров 32 тыс.3 года назад
What is Dense Wavelength Division Multiplex? DWDM In Hindi This video teaches us about the introduction of full topic of DWDM which is taught in networking in electronics engineering. THis video tells us the principle on which DWDM works. We are taught this topic by Sandeep Bansal - first in the exam of electronics. His unique and awesome style of teaching, both are just great. Tags(Ignore) dwd...
What is Multi-Protocol Label Switching? Hindi Introduction
Просмотров 11 тыс.3 года назад
What is Multi-Protocol Label Switching? Hindi Introduction #MPLS In this video, we learn about MPLS which is Multi-Protocol Labeling Switch and some other types of equipment used in the GSS of Govt. All the equipment pictures are verified by the company and engineers. This is an introduction video which is made by Sandeep Bansal. He achieved the first rank in the electronics exam. His amazing t...
Very nice information sir thank you
Very useful knowledge sir,
E1 me konse 2 channel controlling karte hai
English !!!!!!
Salute to your Knowledge Sir
I don't understand Hindi, but the presentation was nice 🎉
Introduction looks like a horror movie 🤣
Ha bhai
Please explain OTN technology
Mbps wala wrong h ...vo nhi smjya apne
Behtareen lecture...... Love you sir from Pakistan..... Please OTN per bhi video lecture banayeee....
Shandar sir♥️
This will help a lot of folks! Great explanation, keep making more and more videos.
8*9*270= 19440 ata hai sir .. 64*270*9 =19440 nhi aa raha hai..galat hai ye...galat mat batao sir..
Hats off to you Sir... What a simple explanation of the technology. I think Hindi should be promoted more and more for Indians to adopt these more and more in a simple and easy manner. Keep up the good work. Have become your Fan !!
slides mil sakti he sir
Sir I want do courses on MPLS, please suggest
please explain OTN technology
Hi Sir , I have gone through your video and I must say it’s is fantastic the way you explained. Could you pls suggest me any resource from which I can get more deep knowledge of DWDM . Since I am working on Optical transmission so it would be helpful for me . Thank you Sir🙏
Current wdm system support upto how many Gbps?
These slides are copied arent they
Nahi😂
Why E1 has 32 time slots olny
Sir u r sure aapne mpls hi padhaya h ?
sir ji please monitor pe mouse ka cursor bhi hila liya karo, bcz bilkul samjh nahi ata, when u say "ye yaha se yaha chala gaya"
Great sir
sir you left about drawbacks
ASI knowledge hme kahi nahi milegi....thanks for deliver this knowledge sir thanks alot
My pleasure 😁
What a intro
😅😅
dwdm lacture acha laga
e samaj ne me thora jada time lag
Aisa EDFA ka working interview me batayenge to bhaga denge wo
Good explain
Thanks..
Super demonstration sir...
Really thanks 😊
₹Qeqqr sat s
Sir please upload these type of telecom related videos
Thanks sir
Wlcm
Sir needfull video .thanks. I want 2 join class..Pl share link
In the class,, same video will be played..
I would have made the video longer and with more in depth knowledge my health condition was very bad..
@@TechnikiBansal Take care sir
@@kanakrout thanks.. 🙂
How'z your health sir ?
Did you like the video? If yes, please subscribe. It encourages us to create more content like this..
great one sir. would you suggest me some topic on basis of dwdm which we can work for future (for research )?
Hello there, here are some topics that can be tried. 14.4.1 A point-to-point comparison It is tricky to compare EON to fixed DWDM even for the simplest network of a single link. The comparison depends on the link length and transponders used for both cases. Questions like the following ones must be answered to provide a fair comparison: are we assuming a fixed DWDM system is limited to using a single modulation format? Is a fixed DWDM system limited to a 50 GHz grid? What is the extra cost for a BVT compared to a regular transponder? Are there any limitations to how a BVT can be sliced? What FS-ROADM granularity is assumed? etc. One attempt to compare these options was provided in [4]. A different perspective is provided in Table 14.1 below. The table assumes superchannels comprise 33 GHz channels and that these are 10 GHz guard-bands between superchannels. The fixed DWDM network is assumed to only use DP-QPSK transponders (reflecting today’s reality). As can be seen, EON saves significant spectral resources for short links (57%), and medium links (∼30%), while for long links several options exist. One option is to use 37% more spectrum but eliminate regenerators, while another option is to use the same approach as in the fixed DWDM case, which will require regenerators, but still save 30% of spectrum. Note that the cost savings depend on whether BVTs are sliceable and to what extent. In the ideal case, a BVT can handle any channel combination as long as the total bandwidth it handles is constant, say 400 G. In this case a single BVT can support all the required combinations (2 × 200 G, 4 × 100 G, and 8 × 50 G) at no cost premium for EON; while for long links, there are savings due to the elimination of regenerators. On the other hand, in a non-ideal case, there may be need for more BVTs for, say, the 8 × 50 G case, in which case the regenerator savings are offset by the extra cost at the endpoints Thanks for commenting, please tell if I can help
@@TechnikiBansal Thanks Alot sir
Dwdm
OPGW is which type of OFC
Opgw kya hai sir
Hello there, OPGW - Optical Ground Wire An optical ground wire is a type of cable that is used in overhead power lines. Such cable combines the functions of grounding and communications. An OPGW cable contains a tubular structure with one or more optical fibers in it, surrounded by layers of steel and aluminum wire OPGW is primarily used by the electric utility industry, placed in the secure topmost position of the transmission line where it “shields” the all-important conductors from lightning while providing a telecommunications path for internal as well as third party communications. Optical Ground Wire is a dual functioning cable, meaning it serves two purposes. It is designed to replace traditional static / shield / earth wires on overhead transmission lines with the added benefit of containing optical fibers which can be used for telecommunications purposes. OPGW must be capable of withstanding the mechanical stresses applied to overhead cables by environmental factors such as wind and ice. OPGW must also be capable of handling electrical faults on the transmission line by providing a path to ground without damaging the sensitive optical fibers inside the cable. AFL was a leader in the development and launch of this product back in 1985 when there was a realization that the electric transmission lines provided an ideal right of way for a telecommunications path. Today, AFL boasts the world’s largest OPGW product portfolio and highest total capacity with facilities situated throughout the world to satisfy the needs of the global market. AFL also manufactures its own line of attachment hardware which simplifies the network design phase of a project while ensuring compatibility between the cable and related components. Our OPGW product line up includes the ever popular AlumaCore design with the central aluminum pipe and color-coded optical tubes, the HexaCore family which incorporates the use of stranded stainless steel tubes to allow for higher fiber counts, and the CentraCore family which blends together the stainless steel technology with AFL’s aluminum pipe benefits among other options. AFL's Applications Engineers can assist with determining which design best suits the unique conditions and challenges for each.. Hope It Helps! Please Cosider Subcribing?
नमस्ते, OPGW - ऑप्टिकल ग्राउंड वायर एक ऑप्टिकल ग्राउंड वायर एक प्रकार का केबल होता है जिसका उपयोग ओवरहेड पावर लाइनों में किया जाता है। ऐसी केबल ग्राउंडिंग और संचार के कार्यों को जोड़ती है। एक OPGW केबल में एक या एक से अधिक ऑप्टिकल फाइबर के साथ एक ट्यूबलर संरचना होती है, जो स्टील और एल्यूमीनियम तार की परतों से घिरी होती है ओपीजीडब्ल्यू का उपयोग मुख्य रूप से विद्युत उपयोगिता उद्योग द्वारा किया जाता है, जिसे ट्रांसमिशन लाइन की सुरक्षित शीर्ष स्थिति में रखा जाता है, जहां यह आंतरिक और साथ ही तीसरे पक्ष के संचार के लिए दूरसंचार पथ प्रदान करते हुए बिजली से सभी महत्वपूर्ण कंडक्टरों को "ढाल" देता है। ऑप्टिकल ग्राउंड वायर एक दोहरी कार्यशील केबल है, जिसका अर्थ है कि यह दो उद्देश्यों को पूरा करता है। यह ऑप्टिकल फाइबर युक्त अतिरिक्त लाभ के साथ ओवरहेड ट्रांसमिशन लाइनों पर पारंपरिक स्थैतिक / ढाल / पृथ्वी के तारों को बदलने के लिए डिज़ाइन किया गया है जिसका उपयोग दूरसंचार उद्देश्यों के लिए किया जा सकता है। OPGW को हवा और बर्फ जैसे पर्यावरणीय कारकों द्वारा ओवरहेड केबलों पर लागू यांत्रिक तनावों का सामना करने में सक्षम होना चाहिए। ओपीजीडब्ल्यू को केबल के अंदर संवेदनशील ऑप्टिकल फाइबर को नुकसान पहुंचाए बिना जमीन के लिए एक रास्ता प्रदान करके ट्रांसमिशन लाइन पर विद्युत दोषों से निपटने में सक्षम होना चाहिए। एएफएल 1985 में इस उत्पाद के विकास और लॉन्च में अग्रणी था, जब यह अहसास हुआ कि विद्युत संचरण लाइनें दूरसंचार पथ के लिए एक आदर्श अधिकार प्रदान करती हैं। आज, एएफएल के पास दुनिया का सबसे बड़ा ओपीजीडब्ल्यू उत्पाद पोर्टफोलियो है और वैश्विक बाजार की जरूरतों को पूरा करने के लिए दुनिया भर में स्थित सुविधाओं के साथ उच्चतम कुल क्षमता है। AFL अटैचमेंट हार्डवेयर की अपनी लाइन भी बनाती है जो केबल और संबंधित घटकों के बीच संगतता सुनिश्चित करते हुए किसी प्रोजेक्ट के नेटवर्क डिज़ाइन चरण को सरल बनाती है। हमारे ओपीजीडब्ल्यू उत्पाद लाइन अप में केंद्रीय एल्यूमीनियम पाइप और रंग-कोडित ऑप्टिकल ट्यूबों के साथ हमेशा लोकप्रिय एलुमाकोर डिजाइन, हेक्साकोर परिवार शामिल है जिसमें उच्च फाइबर गणना की अनुमति देने के लिए फंसे स्टेनलेस स्टील ट्यूबों का उपयोग शामिल है, और सेंट्राकोर परिवार जो एक साथ मिश्रण करता है एएफएल के एल्यूमीनियम पाइप के साथ स्टेनलेस स्टील प्रौद्योगिकी अन्य विकल्पों के बीच लाभ देती है। AFL के एप्लिकेशन इंजीनियर यह निर्धारित करने में सहायता कर सकते हैं कि कौन सा डिज़ाइन प्रत्येक के लिए अद्वितीय परिस्थितियों और चुनौतियों के लिए सबसे उपयुक्त है आशा है कि इससे सहायता मिलेगी! कृपया हमारे यूट्यूब चैनल को सब्सक्राइब करने पर विचार करें?
Thanks sir
@@TechnikiBansal thanks sirji
My pleasure 😁
Please make a video on otn, fault propagation, performance monitoring topics..
I am trying my best, I have time problem. Lack of time. 😔
Sir thoda KLM samjha dijiye
I will try. (Time issue) 😔
Thanks good knowledge for telecom user
Excellent video on dwdm. Tnks sir 🙏. I am working on dwdm. Kindly reply how many maximum channels or lambda we can send
Thanks for watching, in indian technology, we can send 156 maximum lambda.
@@TechnikiBansal Thanks sir. I want learn & take training on dwdm & otn .kindly do the needful. There are so much trainings tutorials on ip but we are not finding enough knowledge on dwdm& otn. Please start a series so that we ll grateful to you.
I would actually love to do that but I am currently smashed between the office work and I cannot find enough time for making it. 😶😶
Nice sir
Thank you, please consider subscribing... 😁
Great video with examples. Please make a basic video tutorial on OTN basics including ODU, OTU and other basic components in OTN and their uses by example in signal flow. Also share where does ODU, OTU stands in general signal flow.
Very good explanation
OCHNC, OCHCC circuit type, plz explain it???
Can you plz explain OTN network, difference between dwdm and otn