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ALL ABOUT ELECTRONICS
Добавлен 14 ноя 2016
Learn Everything about Electronics !!
Hi everyone, This is Rushal Shah. I have completed my master's degree from IIT Delhi and working in R&D organization since last 10 years.
Reading is a great way of learning but visualization will definitely enhance your way of learning. This channel is especially for those who want to learn about the electronics. I have tried my best to make learning easy.
On this channel, you will get free tutorials related to different topics of electronics as well as videos related to the latest technology, which some way or other involves electronics.
Please SUBSCRIBE to ALL ABOUT ELECTRONICS, Thank you.
Hi everyone, This is Rushal Shah. I have completed my master's degree from IIT Delhi and working in R&D organization since last 10 years.
Reading is a great way of learning but visualization will definitely enhance your way of learning. This channel is especially for those who want to learn about the electronics. I have tried my best to make learning easy.
On this channel, you will get free tutorials related to different topics of electronics as well as videos related to the latest technology, which some way or other involves electronics.
Please SUBSCRIBE to ALL ABOUT ELECTRONICS, Thank you.
What is Thermistor ? Types of Thermistors | Applications of Thermistor Explained
In this video, what is Thermistor, its working principle, typical characteristics, and different applications of thermistor are explained in detail.
The following topics are covered in the video:
0:00 What is Thermsitor?
1:51 Types of Thermsitor
3:57 NTC Thermistor and its applications
16:11 PTC Thermistor and its applications
*Thermistor:*
Thermistor is a semiconductor device, whose resistance changes with the temperature. Compared to normal resistors, the change in the resistance with the temperature is large for the thermistors. And that is why they are commonly used in temperature sensing applications.
Types of Thermistor:There are two types of thermistor.
1) NTC Thermistor
2) PTC Thermistor
*N...
The following topics are covered in the video:
0:00 What is Thermsitor?
1:51 Types of Thermsitor
3:57 NTC Thermistor and its applications
16:11 PTC Thermistor and its applications
*Thermistor:*
Thermistor is a semiconductor device, whose resistance changes with the temperature. Compared to normal resistors, the change in the resistance with the temperature is large for the thermistors. And that is why they are commonly used in temperature sensing applications.
Types of Thermistor:There are two types of thermistor.
1) NTC Thermistor
2) PTC Thermistor
*N...
Просмотров: 435
Видео
Types of Crystal Oscillators Explained | TCXO, OCXO, VCXO Explained
Просмотров 2 тыс.14 дней назад
In this video, different types of crystal oscillators, their working principle, and their applications are discussed in detail. The following topics are covered in the video: 0:00 Introduction 1:07 Stability of Normal Crystal Oscillator and the need for different types of Crystal Oscillator 3:18 TCXO (Temperature Compensated Crystal Oscillator 7:30 OCXO (Oven Controlled Crystal Oscillator) 14:0...
What is Real Time Clock (RTC)? How RTC works? Applications of Real Time Clock
Просмотров 4,2 тыс.Месяц назад
In this video, what is a real-time clock, how it works, the basic architecture of RTC, and its applications are explained. Along with that, the different temperature compensation techniques that are used in the RTC is also explained. The following topics are covered in the video: 0:00 What is Real Time Clock 0:57 Applications of Real Time Clock 2:47 What is inside RTC? How RTC work? 8:55 Temper...
What is Clock Skew ? The Positive and Negative Clock Skew Explained
Просмотров 2,7 тыс.Месяц назад
In this video, what is clock skew, and how it affects the performance of the synchronous digital circuits is explained through an example. The video also explains the positive and the negative clock skew, and the effect of both types of clock skews on the digital circuits. The following topics are covered in the video: 0:00 What is Clock Skew and why Clock Skew occurs? 1:51 Revision of Setup Ti...
Ring Oscillator Explained | Applications of Ring Oscillator
Просмотров 3,7 тыс.2 месяца назад
In this video, the Ring Oscillator and the applications of the Ring Oscillators are explained in detail. What is a Ring Oscillator? The Ring Oscillator consists of an odd number of Inverters (NOT gates) in the chain and there is a feedback from the output to the input side (The output of the last inverter is connected as an input to the first inverter). Because of the finite propagation delay o...
Simplex, Half-Duplex and Full-Duplex Communication | Transmission Modes in Communication System
Просмотров 1,8 тыс.2 месяца назад
In this video, the different transmission modes in the communication system are explained with examples. Types of Communication: 1) Simplex Communicaiton 2) Half-Duplex Communication 3) Full-Duplex Communication Simplex Communication: It is a one-way communication, where a transmission can happen only in one direction. Examples: Radio or TV broadcasting, Communication between CPU and Display Mo...
CPLD (Complex Programmable Logic Device) Explained
Просмотров 5 тыс.2 месяца назад
This video explains, what is CPLD, the basic architecture of CPLD, and the function of each block in the CPLD. The following topics are covered in the video: 0:00 What is CPLD 1:28 CPLD architecture 5:40 Macrocell in CPLD 16:09 I/O block in CPLD 17:23 Switch matrix / Programmable Interconnect Array in CPLD 18:35 Limitations and Applications of CPLD The link to the other videos related to Progra...
Wired AND Logic Explained | What is Wired Logic in Digital Electronics ?
Просмотров 1,7 тыс.3 месяца назад
In this video, what is Wired AND Logic and how this Wired AND Logic is implemented in the digital circuits, is explained using the example of open drain logic gates. What is Wired AND Logic? When the open collector or the open drain logic gate outputs are connected together using the pull-up resistor, then the wired output functions as Logic AND gate. That means if the output of all the logic g...
Bit Rate vs Baud Rate | Difference between Bit Rate and Baud Rate
Просмотров 9 тыс.3 месяца назад
In this video, the difference between Bit Rate and Baud Rate is explained. The link for the other useful videos and playlist: 1) Analog and Digital Communication: ruclips.net/p/PLwjK_iyK4LLArUHRm3SvPLT0XWlVhpl4h&si=hluQX50nr9qEracx 2) Analog Electronics: ruclips.net/p/PLwjK_iyK4LLBVM18VZ7JKW-q88FAtnr8_&si=rPiU2BIuOPtSTkR2 3) Digital Electronics: ruclips.net/p/PLwjK_iyK4LLBC_so3odA64E2MLgIRKafl&...
How to find the Absorbed or the Supplied Power by the element in the circuit ?
Просмотров 2,1 тыс.4 месяца назад
This short video explains, how to find the absorbed or the delivered/supplied power by the electrical elements (like voltage source and current source) in the circuit. Other useful videos related to Network Analysis: ruclips.net/p/PLwjK_iyK4LLBN9RIDQfl9YB4caBYyD_uo&si=hvixLO-uPx70hJ1e #ALLABOUTELECTRONICS #networkanalysis #circuitanalysis #basicelectricalengineering Support the channel through ...
Programmable Array Logic (PAL) Explained | Digital Electronics
Просмотров 6 тыс.4 месяца назад
In this video, the basic Architecture of Programmable Array Logic (PAL) has been covered. And through example, how to implement any logic circuit using the PAL is also explained. The following topics are covered in the video: 0:00 What is PAL? Basic Architecture of PAL 5:52 Solved Example (Implementation of Logic Circuit using PAL) 13:42 Output macrocell in PAL Programming Array Logic: The PAL ...
Programmable Logic Array (PLA) Explained | What is PLA | PROM vs PLA | Boolean Functions using PLA
Просмотров 11 тыс.4 месяца назад
This video explains the What is Programmable Logic Array (PLA), the basic architecture of PLA, and how to implement different Boolean Functions using PLA. The video also explains the advantages and disadvantages of PROM. The following topics are covered in the video: 0:00 Introduction 0:50 Advantages and Disadvantages of PROM 4:20 What is a Programmable Logic Array 9:25 Full-Subtractor using PL...
How to use ROM as Programmable Logic Device | ROM as PLD
Просмотров 12 тыс.5 месяцев назад
In this video, how ROM (Read Only Memory) can be used as a Programmable Logic Device is explained through various examples. Here is the list of topics covered in the video: 0:00 What is Programmable Logic Device 3:24 PROM as Programmable Logic Device 6:10 Example 1 (Full Adder and Subtractor) 9:12 Example 2 (Binary to Gray Code Converter) 12:36 Example 3 Read Only Memory is typically used for s...
Semiconductor Memories: ROM Explained | Types of ROM | Applications of ROM
Просмотров 11 тыс.5 месяцев назад
In this video, the basic structure of ROM (Read Only Memory), different types of ROM and the applications of the ROM is explained. The following topics are covered in the video: 0:00 Introduction 1:44 Basic Structure of ROM 7:14 Types of ROM 12:44 Application of ROM For more information related to Semiconductor Memories, check these videos: 1) RAM (Random Access Memory) Explained : ruclips.net/...
Semiconductor Memories : RAM - Memory Decoding Explained
Просмотров 14 тыс.5 месяцев назад
In this video, how the Memory Decoding is carried out in the RAM (Random Access Memory) is explained in detail. The following topics are covered in the video: 0:00 Introduction and Recap of the Previous Video 1:41 How the Read / Write Operations are Performed (Timing Diagram) 6:41 Logic Circuit of One Binary Cell in Memory 11:41 Logic Diagram of 16 x 4 RAM and Address Decoding in RAM 14:15 Co-i...
Semiconductor Memories: RAM (Random Access Memory) Explained
Просмотров 14 тыс.6 месяцев назад
Semiconductor Memories: RAM (Random Access Memory) Explained
IEEE Floating Point Representation | Representation of Denormalised Numbers and Special Numbers
Просмотров 3,4 тыс.6 месяцев назад
IEEE Floating Point Representation | Representation of Denormalised Numbers and Special Numbers
Floating Point Numbers: IEEE 754 Standard | Single Precision and Double Precision Format
Просмотров 21 тыс.6 месяцев назад
Floating Point Numbers: IEEE 754 Standard | Single Precision and Double Precision Format
Floating Point Numbers | Fixed Point Number vs Floating Point Numbers
Просмотров 17 тыс.7 месяцев назад
Floating Point Numbers | Fixed Point Number vs Floating Point Numbers
What is Driving Point Impedance and Transfer Function in the Electrical Circuit? | Network Analysis
Просмотров 14 тыс.7 месяцев назад
What is Driving Point Impedance and Transfer Function in the Electrical Circuit? | Network Analysis
Transient Analysis using Laplace Transform (Solved Problems) | Network Analysis
Просмотров 11 тыс.8 месяцев назад
Transient Analysis using Laplace Transform (Solved Problems) | Network Analysis
Circuit Analysis using Laplace Transform | Network Analysis
Просмотров 25 тыс.8 месяцев назад
Circuit Analysis using Laplace Transform | Network Analysis
Inverse Laplace Transform using Partial Fraction Expansion (Part-2)
Просмотров 5 тыс.8 месяцев назад
Inverse Laplace Transform using Partial Fraction Expansion (Part-2)
Inverse Laplace Transform Explained (Part-1)
Просмотров 4,6 тыс.8 месяцев назад
Inverse Laplace Transform Explained (Part-1)
What is the Laplace Transform of Trapezoidal Function ?
Просмотров 4 тыс.9 месяцев назад
What is the Laplace Transform of Trapezoidal Function ?
Laplace Transform of Periodic Function Explained (with Examples)
Просмотров 12 тыс.9 месяцев назад
Laplace Transform of Periodic Function Explained (with Examples)
Laplace transform: Initial and Final Value Theorem Explained
Просмотров 9 тыс.9 месяцев назад
Laplace transform: Initial and Final Value Theorem Explained
Difference Amplifier using the Op-Amp Solved Problem | FAQ # 2
Просмотров 7 тыс.9 месяцев назад
Difference Amplifier using the Op-Amp Solved Problem | FAQ # 2
Laplace Transform Properties (Part 2) : Differentiation and Integration Properties
Просмотров 7 тыс.9 месяцев назад
Laplace Transform Properties (Part 2) : Differentiation and Integration Properties
Laplace Transform Properties (Part - 1) | Scaling, Time Shifting, Frequency Shifting Properties
Просмотров 8 тыс.10 месяцев назад
Laplace Transform Properties (Part - 1) | Scaling, Time Shifting, Frequency Shifting Properties
Thank You beta, very helpful
Waiting since long, amazingly explained 🎉
Amazing
Always happy with your video ❤🎉
_The link for the other useful videos:_ *1) Types of Resistors:* ruclips.net/video/fJv0D6HdkOc/видео.htmlsi=E4Qv7r4bLziJEqOF *2) Types of Capacitor:* ruclips.net/video/UMJzF8__zxA/видео.htmlsi=DXPLdfPhr-ygsu6W *3) Heatsink Explained:* ruclips.net/video/LA6H_rGoJsI/видео.htmlsi=CRLSxJDpgHNjHJZw
Thanks for this video. It helped a lot.
Bro earned respect from my side 🙌
Life saving, thank you
at the ending, you called Vo/Vin the attenuation, I though it was the gain and attenuation was the inverse?
Your derivation was so much better, my lecturer Laplace transformed the circuit and ended up getting 3x3 matrix and the derivation was worth over 5 pages
mast madarchod lecture tha 😍😍😍😍😍😍😍😍
Hello from Germany. Very nice explenation! I only have one question: What would the numer at minute 5:29 be in Decimal (its the -0.00011 * 2 ^-126). Could you give me a Calculation method for that pls <3 ?
Yes, sure. First, you need to separate the given HEX number in 32 bit binary number. Then write it in a different segments. (like sign, exponent and mantissa). Here, since exponent is zero and mantissa is non-zero, it means the given number represents de-normalized number. So, it will be in the form ± 0.000 x 2 ^-126. That means here, exponent is 2^-126. Now, here since the mantissa is 00011. So, overall number will be 0. 00011 x 2^-126. More over since sign bit is 1, so number is negative number. Therefore, the equivalent decimal number is - 0.00011 x 2^-126. I hope, it will clear your doubt.
bro i have exam in 2 weeks idk anything about binary thanks to you atleast i know half adder and full adder
The point is to convert dc to Ac then why is there a sine wave input ?
Awesome explanation 🎉
Just excellent !!!
Everything clear ❤
Please provide notes in pdf sir
2:12 why the output of this xor gate is equal to 0? Maybe previous stage is 0. I didn't undarstate that.
Here, just for explaining, the initial state of the XOR gate is assumed as 0.
cihana selam bu videoyu izliyorsan bana ulaş .ALL ABOUT ELECTRONİC ADAMSIN
If my exam question ask me to "explain dual slope dvm" so can I explain "dual slope ADC"? Means are both the terms synonym of each other or if there is any difference,then tell me the difference. 🙏🙏
Yes you can write, as it works on the same principle.
Better ee
Thank you sir
This single video covered all my doubts about sop , pos and k map which I was searching every where bit by bit from whole day, Thanks alot
Thank you so much
thank you soooo much 🥹🥹🥹
in active low pass filter at 9:07, if frequency is high gain is 1. then it is still giving amplitude equal to input then how did it become low pass. If should have reduced the output. please correct me
Here, we are amplifying the input signal. So, at lower frequencies the amplification will be more, and at higher frequencies, the amplification will be less. And very high frequencies, the output is the same as input. That means higher frequencies are not getting amplified at all. For example, if your input is coming from a microphone (where the signal level is mV or even less than that, then higher frequencies will not get amplified and will not be able to be heard in the speaker). So, still, this circuit works as a low-pass filter with amplification. I hope, it will clear your doubt.
I am having exam in two days and I was having trouble with binary. Thanks alot
You mixed up which half is foward bias and which is reverse bias, in both the pnp and npn transistor diagrams. 2:55 and 2:32
In PNP transistor, EB junction is forward-biased. (Emitter is P, and base is N), while CB junction is reverse-biased. (Collector is P and base is N). In the NPN transistor, BE junction is forward biased (Base is P and Emiiter is N), while BC junction is reverse biased. (Collector is N and base is P, so higher voltage is applied at Collector side). I hope, it will clear your doubt.
@@ALLABOUTELECTRONICS but if base-emitter in NPN is foward biased, that means current flows into emittor(N) and out of the base(P), because that is how a [NP] diode would behave in foward bias. But current is flowing out of the emitter in your NPN diagram, which makes the emitter-base reverse bias.
@@chibuzordesmond3937 I would recommend you to watch the basic video on BJT. If you will watch it, then your doubts will get clear. Here is the link: ruclips.net/video/-VwPSDQmdjM/видео.htmlsi=B9kH68XWb2-uVTNo
@@ALLABOUTELECTRONICS will do
@@ALLABOUTELECTRONICSI've watched it and my understanding now is that current always flows from + to - in the circuit, I've been taking the convention for granted but let me know if that is correct.
at 3.09 how the voltage at the base of Q1 is zero???
Since Q2 is ON and operating in saturation, it can be assumed as short circuit. So, one end of R1 is connected to ground terminal. And other end is connected to Q1. That means the base of Q1 is connected to ground via R1. So, we can say that, the voltage at the base of Q1 is zero. (Diode D is reversed biased and will act as a open circuit) I hope, it will clear your doubt.
I think there is a mistake, in case of normalized numbers, the biased exponent can be between 0x01 to 0xFE, but in case of denormal number the exponent is 0, which makes the actual exponent equal to 2^-127 not 2^126. To differentiate whether the number has preceding one of not is identified by exponent value which is 1 for all normalized numbers but 0 for denormal numbers. Correct me if I am wrong.
The de normalized numbers are used to represent numbers which are smaller than smallest possible normalized numbers. In single precision format, the smallest positive normalized number is 1. 0 x 2^-126. So, to represent numbers between 0 and this smallest number this denorms are used. The thing of the biased exponent holds true only for normalized numbers. For denorms, the exponent is always -126. And the numbers are represented as 0. BBB x 2^-126. So, with this representation, the numbers will be less than the smallest possible normalized numbers. For example, 0.11 x 2^-126. I hope, it will clear your doubt.
in my book i see a capacitor parallel with a resistor for entering set reset pulse.. why is it there?
Is it the part of computer engineering
yes, you can refer it.
it was very very good. understood easily and properly. firstly it seemed hard then everything settled
sir at 6:18 why are u using the opposite convention of assigning sign to potential differences
Yes, that's right, but It will not make any difference in the final result. Because, if you take the negative sign outside, then we will get the same result. So, I have directly used the second step. I hope you got it.
How can you obtain Vout when the input signal's frequency is not constant (like in an audio signal)? In other words, is there a way to calculate Vout(t) in terms of Vin(t), R, and C, for any arbitrary instant t?
Thank you Sir for explaining beautifully. can you please share me analog and digital communication ppt
Thanks sir for good explanation
I have a dought sir, what is the difference between Vbb, Vee and Veb when the base is common. And the volatege is always apllied between base and emitter then why three different notations are used
very very wory🦍
Best ❤❤❤❤❤❤
After 3 hours 😭 examssssss 🗿🗿
Just go slow ur too fast
so helpful..........THANK YOU SO MUCH
obrigado❤
I was stuck on this topic for more than an hour, it simply took me 20 mins to understand this. This is the simplest yet the most efficient video i had seen on this topic, thank you so much sir! This was very very helpful for me
5:33 Virtual Short
Thanks a lot Sir❤❤❤❤
I hope you can explain the last two-level carry-lookahead.
Arigatho