{680} Transformerless Power Supply Circuit, Capacitor Dropper Circuit
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- เผยแพร่เมื่อ 8 มิ.ย. 2024
- Transformerless Power Supply Circuit Design / Voltage Dropper Circuit. How to design Transformerless Power Supply circuit Explained with Calculation. how to convert ac to dc power supply without transformer, convert 220v to 12v Dc power supply using polyester capacitor, without transformer
capacitor dropper circuit is an un-isolated, low output current power supply which drops the line voltage using capacitive reactance. at the output of dropper circuit a bridge rectifier is used to convert ac voltage in dc voltage, then a polar capacitor and a zener diode is connected at output of bridge rectifier. i explained the calculations with practical circuit design and its analysis with circuit diagram. i explained the working principle and functional description using schematic and practical circuit design. we can also use LM7805, 7808, 7809, 7812 or 7815 voltage regulators to get regulated output
to calculate a transformerless power supply circuit we need to calculate the capacitance for capacitor dropper. for calculation we need to determine the line frequency and using XC capacitive reactance formula we can know the polyester film capacitor in 400 v range
how to make transformerless ac to dc power supply
we can make 220v ac to 5v dc 12v DC but the output current is normally in milliamperes.
transformerless power supply is much cheaper than any ac to dc switch mode converter circuit. capacitor dropper dc power supply is used to power up very low current consuming circuits
transformerless power supply calculations and schematic diagram,
Building a Capacitive Dropper Circuit or transformerless power supply
5v transformerless power supply circuit diagram,
transformerless 12v battery charger,
transformer less / transformerless ac to dc power supply circuit using dropping capacitor,
how to make transformerless battery charger circuit using capacitive reactance method.
fonte sem transformador
fonte transformador
power supply without transformer / with no transformer.
how to make a power supply without transformer,
cheapest mains power supply, building a capacitive dropper circuit
simple power supply for led
how to make cheap dc power supply
how to design transformerless power supply circuit explained with calculations
capacitive dropper
transformerless replacement circuit
5 amp power adapter,
transformer less power supply with calculation,
why capacitive power supply should be avoided,
how to make 12v dc supply without transformer,
how to make transformerless 12v charger,
how to make 12v battery charger without transformer,
how to make 12v transformerless dc power supply,
transformerless 12 volt battery charging circuit,
how to connect led to 220v using transformerless supply using capacitor voltage dropper
power supply, diy, transformerless power supply, transformer less power supply, transformerless power supply calculation, ac to dc power supply, transformerless power supply 12v 3a, transformerless power supply 12v 5 amp
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00:00 Introduction
01:01 Introduction to Capacitor Dropper CIrcuit
05:21 Transformerless power supply Explained
07:54 RMS voltage to Peak voltage Conversion
09:05 How to calculate resistor value
10:55 How to calculate Capacitive Reactance Dropper capacitor
11:13 How to calculate capacitor value
13:24 how to calculate bleeder resistor, discharge resistor
15:10 How to Calculate filter capacitor, smoothing capacitor
16:45 How to calculate LED current limiting resistor
18:37 How to calculate surge protection resistance
22:55 how to test non polar ceramic / polyester ac capacitor - วิทยาศาสตร์และเทคโนโลยี
Thank you. I searched for months to find someone who could and would explain the design of a electronic circuit as you have.
it is my pleasure
Thanks again! The bleeder and surge resistor calculations were great. I am building my project to provide a LED light to a microwave light.
Sir I'm from Sri Lanka that i watched your channel regularly it is very important topics for me also you started to explain in English it is Very useful for none Urdu people like me continue jazakallh khirah
මේ විඩියෝ එකේ විනාඩි 16.02 තියන එකේ 6.2 v / ×0.636 කියෙනේ මොක්කද ඒ ඒකේ ආදේසය පැහැදිලි නෑනෙ. 6.2v ඒක පැහැදිලි අවුට්පුට් Dc වෝල්ට් එක. ප්රස්නේ තියෙන්නේ x 0.636 කියලා තියෙන්නේ ඒමොකේ ආදේසයද .
උඩ ආදේසය C= i 🔼 T / 🔼 v
ඒ සූත්රය සන්කේත මොක්කද
C = කැපසිස්ටය කියලා දන්නව
I = අමිපියර් කිය්න්න දන්නව
ඒ සූතයේ 🔼 ත්රීකෝනේ වගේ තියන එක මොක්කද කියන්න දන්නෑ. පුලුවන් නම් කියලා දෙන්න
Led current = V/R = 4V/330 ohms = 12mA. Maximum surge current will be V/R = 230V x 1.4 / 56 ohms = 5.75A which is good (1N4007 surge current is 30A). The 47uF capacitor will protect the zener diode and the led from surge current. The 47uF capacitor, the zener diode and the 330 ohms resistor will limit the led current, so the surge current will not reach the led. 47uF/0.2uF = 235, so the maximum inrush voltage on the zener diode will be around 230V x 1.4 / 235 = 1.3V, which is good, under 6.2V and the zener diode will be protected. (the 2 capacitors will react like a resistive divider).
perfect analysis
special thanks and best regards
thank you sir, you are a good teacher.
Its been a while since I did any electronic projects but this brought me joy going through the design of this and seeing I haven't forgot everything I taught my self .
Wonderful video dear friend, have a happy Sunday 😊
Thanks! Your explanations are amazing!
Excellent job done keep sharing
Harika bilgiler için teşekkürler kardeşim. Allah cc seni ve sevdiklerini korusun .
Great analysis sir, love from India
Salaam Karne Ke Liya Hazir Ho Geya Hun Bhai Saab
wa alaikum salaam dear brother
Thank you so much; As always awsome!
Very excellent information! Thank you, Haseeb!
My pleasure
Excellent explains
great video
Informative video bro
Buht umdah 👍👍👍
Thank you Sir 🙏
Nice job dear brother
Very useful information sir thanks
it is my pleasure
Cảm ơn bạn!
Thanks a lot for your valuable support 💕
Good job thanks for sharing
best regards
👍👍👍👍👍
Excellent video, as always. Here if I don't use the bridge rectifier, only the zener diode, the led will work only half of the cicle, and the average led current will be 10mA = half of 20mA :)
if we don't use rectifier, then LED reverse voltage are only 5 volt in datasheet but in practical it can sustain only 20V reverse. although the current is limited by dropper, but it may lead to drive in reverse breakdown, in case that the line voltage are increased than the rated values
for that reason we must use at least 1 diode to clip off the reverse peak. so that LED must be protected
You are right. In the absence of the bridge rectifier we can count on the zener diode to reduce the reverse led voltage to the 0.7V zener direct drop voltage.
Excellent
Thank you so much 😀
Thank for sharing your knowledge..! sir, please give complete calculations with timing too..on bleeder resistor as there is no complete info on dicharging capacitor on youtube channel..
Hello, thank you very much for this excellent video, I ask you, why did you use the peak voltage (317 V) instead of using only the input rms voltage of 250V for the calculation of the capacitor? pro security issues???Thank you, greetings.
👍🙏🏻👍👋good
Pretty video. How do I modify the circuit to charge small 12v lead accumulator battery?. I am aware charging current should be way high.
Supply voltage is 230
Need voltage is 4V
Need current is 0.1A
Need power is 4v*0.1A = 0.4W
Then capacitor voltage is 230-4 = 226V
capacitor heating power is 226V / 0.1A = 22.6W
But it doesn't get hot like 22.6W
great
thanks a lot dear brother
i think you forget to take into consideration that when calculating the capacitance(C), you took Xc (apparent resistance of capacitor) as the whole resistance of the dropper , but in reality the total resistance is Xc + R(of surge resistor),
this is way you got different output voltage than you calculated
Salam alaekun engr Haseeb. I am and Rofiu from Nigeria, I really love ur blog and I have learnt alot especially, something I have been fine difficult in power electronics, I.e SMPS. May God Almighty Allah continue to increase your knowledge. Pls. I would like to ask you two questions: (1) in your CAPACITOR VOLTAGE DROPPER CIRCUIT (transformerless power supply circuit), you posted few week ago. How did you get "0.636" with ripples when you are calculating filter capacitor?. (2) pls, I have 12V/200AH sealed AGM Lead Acid batteries two, and I need to charge these batteries with at least, 30% of 400AH (60A). I don't want to use iron core transformer, I need SMPS, using ferrite core transformer. Pls I need your guidance on which topology should I used? with high current. Pls, giude me with schematic design diagrams and few calculation. (3) lastly, I have gone through all your tutorial about SMPS, I want to know how to design choke for input line filter and what type of toroid should be used with few calculation. Thanks God bless you.
woud you please inform me can this circuit use for rechargeable torch 'and can use 105 j 400v one instead of two sir
👌👌👌👍
thanks a lot
Salam M Haseeb. I am having hard time to understand some aspects of this technical video. Why not putting the surge resistor before the capacitor and what is the function of the zener ? Thank you.
Some design uses drum core choke to limit inrush current and noises.
Sir plz make a video on drum core choke design for differencial mode, common mode, buck or boost converter choke.
Great video. Where is the value "0.636" coming from (in your calculation 16 minutes into the video)? Thanks
Looks like it's an average value of a sine wave after diode bridge over its period Pi that is equal to 2/Pi=0.6366
🙏👍
so nice of you
Sir can you please make a video on budget Multimeters.
Warning this circuit could potentially kill unless double insulated. In the event of a faulty component there is the potential to electrocute by direct connection to mains potential. The circuit is fine & safe if it is impossible to accidentally touch live parts or any metal work which the unit could be connected. Recommend also the addition of a fuse, and earth connection to provide protection in the event of a fault. An ELCB or RCCB may also provide protection.
salut 🙂
salutes dear friend
i confuse..about calculate math n fomula of err electronic.calculate capasitor....dificult for me..😅😅..but it good video ...learn new today..26 december 22..
Nice video Sir
I have 24v 750mamp transformer and i need 12v but 750mamp and if I drop voltage by using resistors, will i get amps also reduced by this process?
If I use a resistor R to drop 12V, R=V/I = 12V/0.75A = 16 ohms, P=V x I = 12V x 0.75A = 9W, so, I need a 16 ohm resistor / minim 9W. The resistor will heat, and need good airflow. The amps will not be reduced. If the load resistance is constant, this circuit will work, but if the load don't use 0.75A continuously, then the voltage on the load will be unstable, and can reach values greater than 12V. If the load use DC voltage, then we can use a voltage regulator as L7812 on a heatsink to provide a constant 12V on the output.
@@N0G0MAIL ok ji
Thanku so much
Use a 12v 10w zener
Aslam o alikum sir
Can i make this type supply for 12v 500mA.
How long can it be used, can we apply as a continuously....
if it is designed properly, it works long.
request is for a 6kv solar circuit and load 1.5 tonn ac ( using igbt - steup transformer -battery 100 ah X 12 v and panel 8no
Sir hindi wala chanel pe vido bana plise sir