शुक्रिया सर सर वीडियो बहुत अच्छी थी लेकिन सर फिल्टर और रेजिस्टेंस के बारे में आपने नहीं बताया कि कितने वाट में कौन सा फिल्टर लगेगा और कौन सी रेजिस्टेंस लगेगी धन्यवाद सर
etni chhoti bat koi mention ni krta hai, wo sab log samjh jate hai, 7 se 9w me 1000uf 16v laga sakate uske upar me 2200uf 25v lga sakate or 30-40watt se jyade me 3300uf ya 4700uf v lga sakte hai voltage 35 se 50 hona chaiye. agar ye sb n mile to ekdm simple 10uf 450v lga do sb chleha.
Sir vidio bahut achchhi lagi Agar hum 12 waat se lekar 30 Waat tak ka koi bhi sarket Banate hain polypropyline capacitor ko chhod kar bacha hua sarket 12 waat jesa hi banaen ya usme resistance or capacitor ki velyu bhi chenj karni hogi
Good explanation with corresponding video presentation. Could have shown with live connections and with output voltage. And also expected life span of bulb.
You make the best videos on youtube.👍👍 That's all I've learned till date. I have been able to learn only because of you.😊😊 Thank you so much sir for making videos., 😃😃
Sir baki jo components rhenge wo same hi rhenge kya? Jaise ki apse CBB vale Capister ka btaya k kitne watt mein kounsa lgna hai kya dusra capacitor aur registance ka value bhi alag hoga kya?
Vary Very Best Your Vidio Sir, Thank, s Sir Is Diagram Se Hum Alag Se 5mm Ki Kitni Led Jala Sakte Hain Led सीरिज़ में होंगी या पैरेलल में होंगी अगर बतादें तो मेहरबानी होगी
Mere pas ek charging batteries ke circuit me cbb21UG 335j 400v capacitor us circuit me lage hue hai Sare resistors jal Gaye hai us me se ek iss Capacitor me Konsa lagega ?
Aapke circuit me jo CBB21UG 335J 400V capacitor laga hai, uska value 3.3 µF (microfarad) aur voltage rating 400V hai. Resistors jalne ke baad, capacitor ko directly replace karne se pehle aapko resistors ke specifications ko dekhna padega. Agar aapko resistors ke value ke bare me pata nahi hai, toh multimeter se unhe check karne ki koshish karein ya circuit ka schematic diagram dekhne ki koshish karein. Capacitor ke saath laga resistor ki value power circuit ke design aur application par depend karti hai. Agar resistor ek snubber circuit ya discharge purpose ke liye laga hai, toh generally resistor ki value high (kilo-ohms me) hoti hai, jaise 100KΩ ya 220KΩ. Agar exact specifications nahi milti hain, toh circuit ke design ya manual ko consult karein, ya phir ek professional se guidance lein taaki sahi value ka resistor lagaya ja sake.
Sir ye kitne Watt ke LED bulb ka driver banaye hai aap? Aur kya sabhi wattage k bulb ka driver eise hi banega? Please help me sir 🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻
Aap 155J 450V capacitor ki jagah 630V 474J capacitor istemal kar sakte hain. Yahan kuch cheezen hain jo dhyan mein rakhni chahiye: Voltage Rating: 630V capacitor ka voltage rating 450V se zyada hai, to yeh theek hai. Capacitance: 474J ka matlab hai 470 µF (microfarads) aur 10% tolerance. Agar aapka original capacitor 155J (155 µF) hai, to yeh value zyada hai. Iska matlab hai ki aapka circuit zyada capacitance ko handle kar sakta hai ya phir kuch adjustments karne ki zarurat ho sakti hai. Agar aapka circuit 470 µF ki capacitance handle kar sakta hai, to aap yeh capacitor use kar sakte hain. Lekin, circuit ki stability aur performance ke liye, specific requirements ka dhyan rakhna zaroori hai.
Aapka sawal motor selection aur uske saath capacitor aur resistor ke use ke baare mein hai, jisme Power Factor (PF) ka bhi zikar kiya hai. Chaliye, isko detail mein samjhte hain. 1. Motor Selection: Motors ke selection ke liye alag-alag type ke motors aur unke components jaise capacitor aur resistance ka use hota hai, jo motor ki working par depend karta hai. Commonly motors ko single-phase aur three-phase mein divide kiya jata hai. Single-Phase Motors: Single-phase motors mein capacitors ka use hota hai, aur yeh motors ghar ke applications mein zyada common hote hain. 2. Capacitor Selection in Motors: Capacitors ka motor mein use mainly starting torque aur running efficiency ko badhane ke liye hota hai. (a) Starting Capacitor: Purpose: High torque provide karne ke liye, jab motor start hoti hai. Type: Usually electrolytic capacitor use hota hai. Value: Higher value (microfarads mein) hoti hai, jaise 200-400 µF. Working Voltage: 220V ya 440V. (b) Running Capacitor: Purpose: Motor ko efficiently chalane ke liye aur smooth operation ke liye. Type: Polyester film capacitor ya oil-filled capacitor use hota hai, jo zyada reliable aur durable hota hai. Value: Iski value lower hoti hai, usually 20-50 µF ke beech. Working Voltage: 250V ya 440V. 3. Resistance in Motors: Motors mein resistors ka use kaafi specific applications ke liye hota hai, jaise: Winding resistance: Motor ke andar hota hai, jo motor ke heating aur efficiency par asar dalta hai. External resistors: Kaafi motors mein starting ke time me resistors ka use hota hai, jisse current ka initial surge control ho. Lekin common ghar ke motors mein, resistors ka external use zyada nahi hota, balki capacitors ka role zyada hota hai. 4. Power Factor (PF): Power Factor motor ki efficiency aur load ka ek measure hai. Zyada motors ka Power Factor 0.7 to 0.9 ke range mein hota hai. Low Power Factor: Jab PF low hota hai, to zyada current use hota hai, jisse efficiency kam hoti hai. Corrected PF: Capacitors ka use karke Power Factor improve kiya ja sakta hai, jisse energy consumption kam hota hai. Capacitors for PF Improvement: Capacitors ko motors mein Power Factor correction ke liye bhi use kiya jata hai. Is case mein, alag-alag capacities ke PF capacitors ka selection hota hai, jo motor ke wattage aur load par depend karta hai. Conclusion: Capacitors: Starting Capacitor: High value (200-400 µF), electrolytic type. Running Capacitor: Low value (20-50 µF), polyester film ya oil-filled type. Resistors: Motors mein resistors ka use specific cases mein hota hai, lekin zyada tar capacitors ka role hota hai. Power Factor: Capacitors ka use power factor ko improve karne ke liye hota hai, jisse motor ki efficiency badhti hai. Agar aap kisi specific motor type ke baare mein jaanna chahte hain ya aur detail mein guidance chahiye, to aap motor ka type aur usage clear bataye, main aur detail mein madad kar paunga.
Hi sir good morning 😊 35 ya 40 w ka led driver ke kiye 335j 450v ka capacitor use kiya par led light ka brightness bahut kam hai isliye kya kare Please reply sir
Good morning! 😊 LED brightness low hone ka reason ho sakta hai capacitor ka value ya driver ka output theek nahi hai. Aapko 335j 450V capacitor ko check karna hoga aur ensure kare ki LED driver ka output voltage aur current specification LED light ke requirement ke hisaab se ho. Galat capacitor ya driver specification se brightness kam ho sakta hai. Solution: Capacitor value check kare. Driver output specification LED ke requirement ke hisaab se match kare. Agar issue phir bhi solve na ho, sahi driver ya capacitor use kare.
Aapka sawal hai ki resistor aur capacitor kaunsa use hota hai aur kis power rating par yeh components kaise kaam karte hain. Chaliye, main aapko is topic ko step-by-step samjhaata hoon, taaki aapko basic cheezein achhi tarah se samajh mein aayein. 1. Resistor: Resistor ek aisa electronic component hai jo current ka flow control karta hai. Iska use har tarah ke circuits mein hota hai, chhote circuits se lekar bade power circuits tak. Resistor kis wattage (power rating) par use hota hai: Low power circuits (jaise LEDs ya chhote electronic projects): Resistor ka wattage rating hota hai 0.25W (¼ watt), 0.5W (½ watt), ya 1W. Example: Agar aapko ek simple LED circuit banana hai, to aap 0.25W ya 0.5W ka resistor use karenge. High power circuits (jaise motors, power supplies, etc.): High power applications ke liye resistors ka wattage 2W, 5W, ya zyada hota hai. Example: Agar aap kisi motor ke circuit mein resistor lagana chahte hain, to aapko 5W ya zyada wattage ka resistor lagana padega. Resistor ko kis circuit mein lagana chahiye: Current limiting: Resistors ka use current ko limit karne ke liye hota hai, jaise LEDs ko overload hone se bachane ke liye. Voltage Divider: Kabhi-kabhi resistors ka use voltage ko divide karne ke liye hota hai, jab aapko circuit mein do different voltage levels chahiye hote hain. 2. Capacitor: Capacitor ek aisa component hai jo energy ko store karta hai aur current ko smooth banata hai. Iska use har tarah ke circuits mein hota hai, lekin specific applications ke liye different types aur ratings ke capacitors hote hain. Capacitor kis power rating par use hota hai: Low power circuits: Capacitors 10 µF se lekar 100 µF tak ke capacitance values ke hote hain. Inki voltage rating 16V, 25V, ya 50V hoti hai. Example: Microcontroller ya small circuits mein capacitors ka use power supply ko stabilize karne ke liye hota hai. High power circuits: High power applications ke liye capacitors ki capacitance value zyada hoti hai (100 µF se lekar 1000 µF ya zyada). Inki voltage rating high hoti hai, jaise 250V, 400V, ya 600V. Example: Motors, UPS systems, ya power factor correction ke liye high voltage aur capacitance wale capacitors ka use hota hai. Capacitor ko kis circuit mein lagana chahiye: Power Supply Filtering: Capacitors ka use power supply circuits mein voltage ko smooth aur ripple-free banane ke liye hota hai. Motor Starting/Running: Motors mein starting aur running capacitors lagte hain, jo motor ko efficiently start karne aur chalane mein madad karte hain. Power Factor Correction: Industrial motors mein capacitors ka use Power Factor ko improve karne ke liye hota hai, jisse energy efficiency badhti hai. 3. Resistor aur Capacitor ke Application Wards: Yeh dono components har tarah ke circuits mein use hote hain, lekin unka application aur wattage rating depend karti hai circuit ke load aur voltage par: Small Circuits (Low Power): Resistors aur capacitors dono ki low wattage aur voltage rating hoti hai. Example: Microcontroller-based projects, LED circuits, sensor circuits. High Power Circuits: Resistors aur capacitors ki high wattage aur voltage rating hoti hai. Example: Motor control circuits, power supply circuits, industrial systems. Conclusion: Resistor: Low power applications ke liye 0.25W to 1W tak ke resistors use hote hain. High power applications ke liye 2W, 5W ya zyada wattage ke resistors use hote hain. Capacitor: Low power circuits ke liye capacitors ki voltage rating 16V se 50V tak hoti hai. High power circuits ke liye capacitors ki voltage rating 250V se lekar 600V tak hoti hai, jaise motors ya industrial applications mein. Agar aapko kisi specific application ke liye recommendation chahiye, to aap apna circuit ya project detail mein bata sakte hain, main aapko specific resistors aur capacitors suggest kar sakta hoon.
Hello sir..i wanna make ups for 12v router with mt3608 booster module.. But i have doubt is it safe or not..Because i watched lot off review video off mt3608..& seen output voltage are not stable.. Now looking for electrical components who safe my device from Over voltege.. As like fuse between the mt3608 output & device input.
I highly appreciated your reply. If it is possible or not l thank again again for your reaction! And i wish.you the success in your life. I remain thank you again.
Market mein jo L.E.D. Converter milta hai o D.C 12 volt ka hota hai. Is mein aap ne A.C. 230 volt Dairect Bridge rectifier per connect karne ke liye kah rahe ho . Bridge rectifier ke out put mein D.C Kitna out put milega. Please clear explain ki jiye. Thank you.
Jee, agar aapko 560k ohm ka resistance lagana hai, to yeh cheez depend karegi ki aap usse kis circuit mein use kar rahe hain, lekin wattage ka circuit par kya asar hoga, isko samajhna zaroori hai. MCPCB (Metal Core Printed Circuit Board) ke wattage ka resistance ke value se direct relation nahi hota. Resistance value (yaha par 560k ohm) ko to aapne fixed rakha hai, lekin wattage jo power circuit se pass ho rahi hai, wo aapke circuit design, current flow, aur voltage ke hisaab se change hoti hai. Yeh cheezein dhyan mein rakhni hain: Resistance Power Rating: Aapko jo resistance lagana hai (560k ohm), uska wattage rating check karna zaroori hai. Agar circuit ka power high hai, to resistance ko high wattage ka select karna hoga, taaki wo heat ko absorb kar sake bina damage hue. Zyada wattage circuit mein agar low wattage ka resistance use hoga, to wo jal sakta hai ya fail ho sakta hai. Isliye resistance ka power rating match hona chahiye circuit ke wattage se. MCPCB Wattage: MCPCB kitne watt ka hai, iska asar is baat par padta hai ki kitna current aur voltage circuit mein flow hoga. Aapko ensure karna padega ki 560k ohm ka resistance aapke desired application ke liye sahi wattage handle kar sake. Agar aapko exact setup ka detail chahiye ya recommendation, to thoda aur bataye ki aap kis tarah ka circuit use kar rahe hain ya MCPCB ka wattage kitna hai, main aapko uske hisaab se wattage calculate karne mein madad kar sakta hoon.
@@NiketShahPlus Mein to sirf 9watt ki mcpcb ke liye iss circuit ka practical karna chahta tha Iske liye hi confirm karna chahta hu ki agar meri mcpcb 9watt ya 7 Watt ki hai to 560 k ohm quarter Watt ka resistance perfect hoga kya
40-watt LED light ke liye driver banane ke liye aapko kuch essential components aur steps ki zaroorat hogi. Driver ka primary function LED ko required voltage aur current provide karna hota hai taaki LED properly operate kare aur overcurrent ya overvoltage se bach sake. Components Required: Bridge Rectifier (4 diodes IN4007): AC ko DC mein convert karne ke liye. Filter Capacitor (100uF, 400V): DC ko smooth karne ke liye. Switching Controller IC (e.g., IC-UC3842): Switching frequency control ke liye. MOSFET (e.g., IRF840): Switching ke liye. Inductor (e.g., 1mH to 10mH): Current smoothing ke liye. Snubber Circuit (e.g., 100 Ohm resistor aur 104 capacitor): Switching noise reduce karne ke liye. Optocoupler (e.g., PC817): Isolation ke liye. Feedback Resistor (e.g., 10k and 1k resistors): Voltage feedback ke liye. Output Capacitor (1000uF, 50V): Stable output voltage ke liye. Circuit Diagram Explanation: Input Stage (AC to DC Conversion): Bridge Rectifier: 230V AC input ko rectify kar ke DC mein convert karega. Filter Capacitor: Rectified DC ko smooth karega taaki voltage fluctuations minimum ho. Switching Stage: Switching Controller IC (UC3842): Ye IC switching frequency ko control karega jo ki LED driver ke output voltage aur current ko regulate karega. MOSFET (IRF840): Ye switching IC ke control mein on/off hota hai aur input voltage ko high-frequency pulses mein convert karta hai. Snubber Circuit: MOSFET ke switching ke dauran generate hone wale noise ko suppress karta hai. Inductor and Output Stage: Inductor: Ye high-frequency pulses ko filter kar ke continuous DC current mein convert karega. Output Capacitor: Ye DC output ko stable aur ripple-free banata hai. Feedback and Regulation: Optocoupler: Ye output voltage ka feedback IC ko deti hai taaki output ko regulate kiya ja sake. Feedback Resistors: Ye voltage divider circuit banata hai jo ki IC ko correct feedback provide karta hai. Final Output: Ye stage final regulated DC output provide karta hai jo LED ko desired current aur voltage ke sath supply karta hai.
Capacitor slection के बारे में अच्छी जानकारी दी है मगर आपने अपने वीडियो में pcb पर 2 capacitor को दिखाया है और driver बनाने के explanation के समय सिर्फ 1 capacitor के बारे में जानकारी दी है। कृपया circuit explanation और driver making explanation।में अन्तर को क्यों दिखाया गया है। यही नहीं आपने mov use करने के बारे में भी जानकारी नहीं दी है। कृपया स्पस्ट करने की कृपा करें और पूरी जानकारी साझा करने की कोशिश करें। अधूरी जानकारी का वीडियो जारी करना उचित नहीं प्रतीत होता है। आपका जबाव महत्त्वपूर्ण है।
Sir, I want some clarifications in my referred comments but you have not replied . I once again request you to pl clarify my quarries which is in both interest and compelled me to connect with you regularly. At present I am fan of Zero Lab, Electronics world, JKR Technical , Techno Mitra and so many channels.
20 RGB LEDs ko jalane ke liye aapko yeh cheezen chahiye: RGB LEDs (20) Power Supply (5V ya 12V) Resistors (220Ω - 330Ω) Microcontroller (Arduino, ESP32, etc.) Jumper Wires Breadboard (ya PCB) LED Driver IC (optional, jaise WS2812 for addressable control) Inhe ek circuit me connect kar ke aap LEDs ko control kar sakte hain.
એલઇડી ડ્રાઇવર સર્કિટમાં 223J 2000V (બસો તેઇસ જે 2000 વોલ્ટ) કેપેસિટર લગાવી શકાય છે કે નહીં તે કેટલીક પરિસ્થિતિઓ પર આધાર રાખે છે. આ પરિસ્થિતિઓમાં કેપેસિટરનો ઉપયોગ, ઇનપુટ અને આઉટપુટ વોલ્ટેજ રેટિંગ, તથા ડિઝાઇન અને લોડ રિક્વાયરમેન્ટનો સમાવેશ થાય છે. અનુકૂળતા: વોલ્ટેજ રેટિંગ: જો કેપેસિટરનો વોલ્ટેજ રેટિંગ ડ્રાઇવર સર્કિટમાં ઉપસ્થિત વોલ્ટેજથી ઊંચો છે અને જરૂરિયાત અનુસાર વપરાય છે, તો તેનો ઉપયોગ શક્ય છે. કેપેસિટરનો પ્રકાર: એલઇડી ડ્રાઇવર સર્કિટમાં સામાન્ય રીતે EMI ફિલ્ટરિંગ અથવા પાવર રેગ્યુલેશન માટે કેપેસિટરનો ઉપયોગ થાય છે. જો 223J કેપેસિટર વપરાશ માટે યોગ્ય છે અને સ્પષ્ટ ઉત્પાદક માર્ગદર્શિકાનું પાલન કરે છે, તો તે યોગ્ય હોઈ શકે છે. ચેતવણી: ખોટા કેપેસિટરને ઇન્સ્ટોલ કરવાથી પ્રદર્શન ઘટી શકે છે અથવા ડ્રાઇવર સર્કિટને નુકસાન પણ થઈ શકે છે. કેપેસિટરનો પ્રકાર, મૂલ્ય અને રેટિંગ તમામ ડ્રાઇવર સર્કિટની જરૂરિયાતો સાથે મેળ ખાવું જોઈએ. તમારી ચોક્કસ સિસ્ટમ અને ડ્રાઇવર સર્કિટ માટે, સર્કિટના લેઆઉટ અને ઇલેક્ટ્રોનિક્સ ઇજનેરની સલાહ લેવી સારું રહેશે.
Agar aapka 225j 400V capacitor lagane se samandhit prashn hai, to yeh capacitor 225 microfarad (µF) ka hota hai, aur iska voltage rating 400 volts hota hai. Isse lagate waqt aapko kuch baaton ka dhyan rakhna chahiye: Sahi Polarity: Agar yeh polar capacitor hai (jaise electrolytic capacitor), to uski polarity (positive aur negative terminal) ka dhyan rakhte hue installation karein. Agar galat polarity se lagaya, to capacitor kharab ho sakta hai. Voltage Rating: Yeh ensure karein ki aapke circuit mein voltage rating 400V se zyada nahi ho. Isse zyada voltage apply karne par capacitor fail ho sakta hai. Sahi Circuit Position: Capacitor ko us jagah par lagana zaroori hai jahan uski zarurat ho, jaise motor start/run capacitor ke taur par ya kisi power supply ke filter ke roop mein. Safety: Capacitor ko lagane ke baad, hamesha uske connections check karein ki kahin short-circuit to nahi hai. Aur use karne se pehle power off rakhein. Agar aap kisi specific application, jaise motor ya power circuit mein, capacitor laga rahe hain to, uske wiring diagram ya user manual ko consult karna hamesha accha rahega.
You have explained🎉 very clearly sir anybody can assemble the circuit thank you verymuch God bless you always sir
You explained very well in simple Hindi.
Thank you.. do share this video with your friends
You are the blessing of the world. You are helping us with your endless knowledge. Accept my thanks from Bangladesh
शुक्रिया सर सर वीडियो बहुत अच्छी थी लेकिन सर फिल्टर और रेजिस्टेंस के बारे में आपने नहीं बताया कि कितने वाट में कौन सा फिल्टर लगेगा और कौन सी रेजिस्टेंस लगेगी धन्यवाद सर
etni chhoti bat koi mention ni krta hai, wo sab log samjh jate hai, 7 se 9w me 1000uf 16v laga sakate uske upar me 2200uf 25v lga sakate or 30-40watt se jyade me 3300uf ya 4700uf v lga sakte hai voltage 35 se 50 hona chaiye. agar ye sb n mile to ekdm simple 10uf 450v lga do sb chleha.
Very good video. Step by step good explation. Clear circuit.
Very good explanation by the Guru for all ranges of LEDs. Keep it up. Tks.
Sir, very good. Nice explation sir for pf we use in led bulbs. But, sir can you make a video for capacitor. How to calculate the capacitor value
Ok I will try
Sir vidio bahut achchhi lagi
Agar hum 12 waat se lekar 30
Waat tak ka koi bhi sarket Banate hain polypropyline capacitor ko chhod kar bacha hua sarket 12 waat jesa hi banaen ya usme resistance or capacitor ki velyu bhi chenj karni hogi
Excellent video.Thanks from Bangladesh
Very good detailed guidance. Please tell me what should be combition of PF , resistance and ele. capacitor for 20w led tube light driver.
Thanks Sir 🙏🙏Bahot Achhe Tarike Se Samjhaye
बहुत अच्छी तरह समझाया सर थ्यक्स
Niket ji appka jaisa vidio sayad hi koi samjha ke mobail me diikha ta hoga kebal componet ka naam likhdain to bout badhiya hoga dhanyabad
Very simple explanation. Thank you very much.
So nice sir God bless you and your team 👍💗
Very nice explain thanks guru ji ..from Sri Lanka ..
Thanks and welcome do share with your friends
Good explanation with corresponding video presentation. Could have shown with live connections and with output voltage. And also expected life span of bulb.
Very Nice Video Usefull Information
So nice of you.. do share this video with others
Sir, aapka video pasand aaya. Thanks 👍
You make the best videos on youtube.👍👍
That's all I've learned till date. I have been able to learn only because of you.😊😊
Thank you so much sir for making videos., 😃😃
Wow, thanks
Awesome dada,i am from Bangladesh
So nice sir g, have a long life.
So so nice sir God bless you and your team aameen Suma aameen 💝
Nicely explained🎉🎉
Thank you 🙂 do share with others
Pls supply components on comperitive rate. U can also get ready kits both loose n built for needy persons.
Sir baki jo components rhenge wo same hi rhenge kya? Jaise ki apse CBB vale Capister ka btaya k kitne watt mein kounsa lgna hai kya dusra capacitor aur registance ka value bhi alag hoga kya?
Nice explanation. Thank you.
Vary Very Best Your Vidio Sir,
Thank, s Sir Is Diagram Se Hum Alag Se 5mm Ki Kitni Led Jala Sakte Hain Led सीरिज़ में होंगी या पैरेलल में होंगी अगर बतादें तो मेहरबानी होगी
Very very good presentation good explain thanks
Glad you liked it
Very good explanation thank you sir
Very good information.
સારી સમજણ આપી છે આભાર
Well explanation..
Thanks brother.....
I understood very well.....
If l have any doubt I will ask you...
Please help me.....
Keya hum direct A/c supply de sakte ki sirf series m Led bulb jalana pade ga ya sirf series hi m chale ga
Sir can you do a video on 100w led mcpcb and driver design and it's calculation?
Very nice information sir👍
Superb video
Mere pas ek charging batteries ke circuit me cbb21UG 335j 400v capacitor us circuit me lage hue hai Sare resistors jal Gaye hai us me se ek iss Capacitor me Konsa lagega ?
Aapke circuit me jo CBB21UG 335J 400V capacitor laga hai, uska value 3.3 µF (microfarad) aur voltage rating 400V hai. Resistors jalne ke baad, capacitor ko directly replace karne se pehle aapko resistors ke specifications ko dekhna padega.
Agar aapko resistors ke value ke bare me pata nahi hai, toh multimeter se unhe check karne ki koshish karein ya circuit ka schematic diagram dekhne ki koshish karein.
Capacitor ke saath laga resistor ki value power circuit ke design aur application par depend karti hai. Agar resistor ek snubber circuit ya discharge purpose ke liye laga hai, toh generally resistor ki value high (kilo-ohms me) hoti hai, jaise 100KΩ ya 220KΩ.
Agar exact specifications nahi milti hain, toh circuit ke design ya manual ko consult karein, ya phir ek professional se guidance lein taaki sahi value ka resistor lagaya ja sake.
Thank You
Hi thanks for nice information about driver
So nice of you
Sir ye kitne Watt ke LED bulb ka driver banaye hai aap?
Aur kya sabhi wattage k bulb ka driver eise hi banega? Please help me sir 🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻🙏🏻
Nice explanation
Thanks for liking
अपने सरल शब्दों में एवं ग्राफ बनाकर बड़ा सुंदर ढंग से समझाया है इसके लिए आपका शुक्रिया अदा करते हैं
Thank you.. apne dosto k sath jarur share kare
Sir jii... 155j 450 12 w ke liye.. Capacitor mil nhi rha hai... Uski jgh 630 w 474 j use kr skta hu kya.. Please reply sir ji🙏
Aap 155J 450V capacitor ki jagah 630V 474J capacitor istemal kar sakte hain. Yahan kuch cheezen hain jo dhyan mein rakhni chahiye:
Voltage Rating: 630V capacitor ka voltage rating 450V se zyada hai, to yeh theek hai.
Capacitance: 474J ka matlab hai 470 µF (microfarads) aur 10% tolerance. Agar aapka original capacitor 155J (155 µF) hai, to yeh value zyada hai. Iska matlab hai ki aapka circuit zyada capacitance ko handle kar sakta hai ya phir kuch adjustments karne ki zarurat ho sakti hai.
Agar aapka circuit 470 µF ki capacitance handle kar sakta hai, to aap yeh capacitor use kar sakte hain. Lekin, circuit ki stability aur performance ke liye, specific requirements ka dhyan rakhna zaroori hai.
Mov select konsa ward mey keysya sath E lectro capacitor registence konsa use hogya konsa ward mey keya keya Jeysey pf batyaeya
Aapka sawal motor selection aur uske saath capacitor aur resistor ke use ke baare mein hai, jisme Power Factor (PF) ka bhi zikar kiya hai. Chaliye, isko detail mein samjhte hain.
1. Motor Selection:
Motors ke selection ke liye alag-alag type ke motors aur unke components jaise capacitor aur resistance ka use hota hai, jo motor ki working par depend karta hai. Commonly motors ko single-phase aur three-phase mein divide kiya jata hai.
Single-Phase Motors:
Single-phase motors mein capacitors ka use hota hai, aur yeh motors ghar ke applications mein zyada common hote hain.
2. Capacitor Selection in Motors:
Capacitors ka motor mein use mainly starting torque aur running efficiency ko badhane ke liye hota hai.
(a) Starting Capacitor:
Purpose: High torque provide karne ke liye, jab motor start hoti hai.
Type: Usually electrolytic capacitor use hota hai.
Value: Higher value (microfarads mein) hoti hai, jaise 200-400 µF.
Working Voltage: 220V ya 440V.
(b) Running Capacitor:
Purpose: Motor ko efficiently chalane ke liye aur smooth operation ke liye.
Type: Polyester film capacitor ya oil-filled capacitor use hota hai, jo zyada reliable aur durable hota hai.
Value: Iski value lower hoti hai, usually 20-50 µF ke beech.
Working Voltage: 250V ya 440V.
3. Resistance in Motors:
Motors mein resistors ka use kaafi specific applications ke liye hota hai, jaise:
Winding resistance: Motor ke andar hota hai, jo motor ke heating aur efficiency par asar dalta hai.
External resistors: Kaafi motors mein starting ke time me resistors ka use hota hai, jisse current ka initial surge control ho.
Lekin common ghar ke motors mein, resistors ka external use zyada nahi hota, balki capacitors ka role zyada hota hai.
4. Power Factor (PF):
Power Factor motor ki efficiency aur load ka ek measure hai. Zyada motors ka Power Factor 0.7 to 0.9 ke range mein hota hai.
Low Power Factor: Jab PF low hota hai, to zyada current use hota hai, jisse efficiency kam hoti hai.
Corrected PF: Capacitors ka use karke Power Factor improve kiya ja sakta hai, jisse energy consumption kam hota hai.
Capacitors for PF Improvement:
Capacitors ko motors mein Power Factor correction ke liye bhi use kiya jata hai. Is case mein, alag-alag capacities ke PF capacitors ka selection hota hai, jo motor ke wattage aur load par depend karta hai.
Conclusion:
Capacitors:
Starting Capacitor: High value (200-400 µF), electrolytic type.
Running Capacitor: Low value (20-50 µF), polyester film ya oil-filled type.
Resistors:
Motors mein resistors ka use specific cases mein hota hai, lekin zyada tar capacitors ka role hota hai.
Power Factor:
Capacitors ka use power factor ko improve karne ke liye hota hai, jisse motor ki efficiency badhti hai.
Agar aap kisi specific motor type ke baare mein jaanna chahte hain ya aur detail mein guidance chahiye, to aap motor ka type aur usage clear bataye, main aur detail mein madad kar paunga.
Sir Mako puch na tha ki kya koi asa senser ha jo heat vision camera ka gasa kam kar ta ha
8mm rgb led k liye konsa PF or Registance use kare... please bataiye Sir 🙂🙏🥺
Very helpful. Tks.
Sir 50watt ke liye konsa lena hoga???!?
sir, isme polar capacitor 47uf 450v koi bhi watt ke bulb me lagasakte hai?
Sir SMD bridge rectifier MB10S & MB10F in donome different Kiya hai??
Pl. Can you provide pdf of basics you're explaining with circuit diagram on chargeable basispl
Aap ka led circet banana bahut acche tha
Nice . Thanks.😮
What's the reason of flicringof one or two leds
Is not required ECap. With Plus and Minus point. ?
Can I used 10uf 450v capacitor
Hi sir good morning 😊
35 ya 40 w ka led driver ke kiye 335j 450v ka capacitor use kiya par led light ka brightness bahut kam hai isliye kya kare
Please reply sir
Good morning! 😊
LED brightness low hone ka reason ho sakta hai capacitor ka value ya driver ka output theek nahi hai. Aapko 335j 450V capacitor ko check karna hoga aur ensure kare ki LED driver ka output voltage aur current specification LED light ke requirement ke hisaab se ho. Galat capacitor ya driver specification se brightness kam ho sakta hai.
Solution:
Capacitor value check kare.
Driver output specification LED ke requirement ke hisaab se match kare.
Agar issue phir bhi solve na ho, sahi driver ya capacitor use kare.
Samzaya achha hai,lekin mov, registens aur fuze ki baat baki reh gai hai to samzaiyega pl...
24watt wale me 9watt led chalaya jaye to? Chalega ki jal jayega??
Registence ecapacitor konsa power kis ward por use hogya batay dada thanks hum new hu
Aapka sawal hai ki resistor aur capacitor kaunsa use hota hai aur kis power rating par yeh components kaise kaam karte hain. Chaliye, main aapko is topic ko step-by-step samjhaata hoon, taaki aapko basic cheezein achhi tarah se samajh mein aayein.
1. Resistor:
Resistor ek aisa electronic component hai jo current ka flow control karta hai. Iska use har tarah ke circuits mein hota hai, chhote circuits se lekar bade power circuits tak.
Resistor kis wattage (power rating) par use hota hai:
Low power circuits (jaise LEDs ya chhote electronic projects):
Resistor ka wattage rating hota hai 0.25W (¼ watt), 0.5W (½ watt), ya 1W.
Example: Agar aapko ek simple LED circuit banana hai, to aap 0.25W ya 0.5W ka resistor use karenge.
High power circuits (jaise motors, power supplies, etc.):
High power applications ke liye resistors ka wattage 2W, 5W, ya zyada hota hai.
Example: Agar aap kisi motor ke circuit mein resistor lagana chahte hain, to aapko 5W ya zyada wattage ka resistor lagana padega.
Resistor ko kis circuit mein lagana chahiye:
Current limiting: Resistors ka use current ko limit karne ke liye hota hai, jaise LEDs ko overload hone se bachane ke liye.
Voltage Divider: Kabhi-kabhi resistors ka use voltage ko divide karne ke liye hota hai, jab aapko circuit mein do different voltage levels chahiye hote hain.
2. Capacitor:
Capacitor ek aisa component hai jo energy ko store karta hai aur current ko smooth banata hai. Iska use har tarah ke circuits mein hota hai, lekin specific applications ke liye different types aur ratings ke capacitors hote hain.
Capacitor kis power rating par use hota hai:
Low power circuits:
Capacitors 10 µF se lekar 100 µF tak ke capacitance values ke hote hain. Inki voltage rating 16V, 25V, ya 50V hoti hai.
Example: Microcontroller ya small circuits mein capacitors ka use power supply ko stabilize karne ke liye hota hai.
High power circuits:
High power applications ke liye capacitors ki capacitance value zyada hoti hai (100 µF se lekar 1000 µF ya zyada).
Inki voltage rating high hoti hai, jaise 250V, 400V, ya 600V.
Example: Motors, UPS systems, ya power factor correction ke liye high voltage aur capacitance wale capacitors ka use hota hai.
Capacitor ko kis circuit mein lagana chahiye:
Power Supply Filtering: Capacitors ka use power supply circuits mein voltage ko smooth aur ripple-free banane ke liye hota hai.
Motor Starting/Running: Motors mein starting aur running capacitors lagte hain, jo motor ko efficiently start karne aur chalane mein madad karte hain.
Power Factor Correction: Industrial motors mein capacitors ka use Power Factor ko improve karne ke liye hota hai, jisse energy efficiency badhti hai.
3. Resistor aur Capacitor ke Application Wards:
Yeh dono components har tarah ke circuits mein use hote hain, lekin unka application aur wattage rating depend karti hai circuit ke load aur voltage par:
Small Circuits (Low Power): Resistors aur capacitors dono ki low wattage aur voltage rating hoti hai.
Example: Microcontroller-based projects, LED circuits, sensor circuits.
High Power Circuits: Resistors aur capacitors ki high wattage aur voltage rating hoti hai.
Example: Motor control circuits, power supply circuits, industrial systems.
Conclusion:
Resistor:
Low power applications ke liye 0.25W to 1W tak ke resistors use hote hain.
High power applications ke liye 2W, 5W ya zyada wattage ke resistors use hote hain.
Capacitor:
Low power circuits ke liye capacitors ki voltage rating 16V se 50V tak hoti hai.
High power circuits ke liye capacitors ki voltage rating 250V se lekar 600V tak hoti hai, jaise motors ya industrial applications mein.
Agar aapko kisi specific application ke liye recommendation chahiye, to aap apna circuit ya project detail mein bata sakte hain, main aapko specific resistors aur capacitors suggest kar sakta hoon.
Which capacitor is perfect for which watt Panel bulb
Hello sir..i wanna make ups for 12v router with mt3608 booster module..
But i have doubt is it safe or not..Because i watched lot off review video off mt3608..& seen output voltage are not stable..
Now looking for electrical components who safe my device from Over voltege..
As like fuse between the mt3608 output & device input.
11watt ke liye konsa use karna padega? Help
Dear Mr.
Possible to use this cercuit for panel light also pl.knoledge me.
Thank
Yes
I highly appreciated your reply. If it is possible or not l thank again again for your reaction! And i wish.you the success in your life.
I remain thank you again.
AC/DC 9w 12w me konsa capacitor use karna hai sir.
Sir kya briteness acha ayega
Super sir ji thankyou sir ji 🙏🙏
Sir resistar some hoga kya her watt ke liye
Maine kuch pucha tha sir
Market mein jo L.E.D. Converter milta hai o D.C 12 volt ka hota hai.
Is mein aap ne A.C. 230 volt Dairect Bridge rectifier per connect karne ke liye kah rahe ho .
Bridge rectifier ke out put mein D.C Kitna out put milega.
Please clear explain ki jiye.
Thank you.
नमस्ते सार इस सर्किट मे एम ओ बी और फ़ूज रजिस्तर डाला तो बहुत क्वलीटी होता जायेगा ना?❤
Matlab?
@@NiketShahPlus मेरा मतलब आप MOB क्यूं नही लगया?
50 watt led keliye kitne ka electrolyte capacitor lagana padega
Very nice
40 w, 50 w ka R C Driver mein kitna no. Ka pf capacitor and electrolyte capacitor lagana hoga.
Resistance 560k ohm ka hi lagana hai chahe mcpcb kitne bhi Watt ki ho
Please confirm
Jee, agar aapko 560k ohm ka resistance lagana hai, to yeh cheez depend karegi ki aap usse kis circuit mein use kar rahe hain, lekin wattage ka circuit par kya asar hoga, isko samajhna zaroori hai.
MCPCB (Metal Core Printed Circuit Board) ke wattage ka resistance ke value se direct relation nahi hota. Resistance value (yaha par 560k ohm) ko to aapne fixed rakha hai, lekin wattage jo power circuit se pass ho rahi hai, wo aapke circuit design, current flow, aur voltage ke hisaab se change hoti hai.
Yeh cheezein dhyan mein rakhni hain:
Resistance Power Rating: Aapko jo resistance lagana hai (560k ohm), uska wattage rating check karna zaroori hai. Agar circuit ka power high hai, to resistance ko high wattage ka select karna hoga, taaki wo heat ko absorb kar sake bina damage hue.
Zyada wattage circuit mein agar low wattage ka resistance use hoga, to wo jal sakta hai ya fail ho sakta hai. Isliye resistance ka power rating match hona chahiye circuit ke wattage se.
MCPCB Wattage: MCPCB kitne watt ka hai, iska asar is baat par padta hai ki kitna current aur voltage circuit mein flow hoga. Aapko ensure karna padega ki 560k ohm ka resistance aapke desired application ke liye sahi wattage handle kar sake.
Agar aapko exact setup ka detail chahiye ya recommendation, to thoda aur bataye ki aap kis tarah ka circuit use kar rahe hain ya MCPCB ka wattage kitna hai, main aapko uske hisaab se wattage calculate karne mein madad kar sakta hoon.
@@NiketShahPlus
Mein to sirf 9watt ki mcpcb ke liye iss circuit ka practical karna chahta tha
Iske liye hi confirm karna chahta hu ki agar meri mcpcb 9watt ya 7 Watt ki hai to 560 k ohm quarter Watt ka resistance perfect hoga kya
Sir constant current kaise set karen ge koi formula bataen
Will try to make video
@@NiketShahPlus okay
Very nice sir
Safety ke liye fuse?
Sirji fast 2amp mobile charger kaise banayenge video banao plz
Bhi is terh k capaciter se mobile charger bilkul nhi banya ja sakta h yedi bana v le to mobile khrab ho jayegi.
40 watt.ied light ke liye Driver kaise benai good quality ka.plz.give detail with diagram.Thank you.
40-watt LED light ke liye driver banane ke liye aapko kuch essential components aur steps ki zaroorat hogi. Driver ka primary function LED ko required voltage aur current provide karna hota hai taaki LED properly operate kare aur overcurrent ya overvoltage se bach sake.
Components Required:
Bridge Rectifier (4 diodes IN4007): AC ko DC mein convert karne ke liye.
Filter Capacitor (100uF, 400V): DC ko smooth karne ke liye.
Switching Controller IC (e.g., IC-UC3842): Switching frequency control ke liye.
MOSFET (e.g., IRF840): Switching ke liye.
Inductor (e.g., 1mH to 10mH): Current smoothing ke liye.
Snubber Circuit (e.g., 100 Ohm resistor aur 104 capacitor): Switching noise reduce karne ke liye.
Optocoupler (e.g., PC817): Isolation ke liye.
Feedback Resistor (e.g., 10k and 1k resistors): Voltage feedback ke liye.
Output Capacitor (1000uF, 50V): Stable output voltage ke liye.
Circuit Diagram Explanation:
Input Stage (AC to DC Conversion):
Bridge Rectifier: 230V AC input ko rectify kar ke DC mein convert karega.
Filter Capacitor: Rectified DC ko smooth karega taaki voltage fluctuations minimum ho.
Switching Stage:
Switching Controller IC (UC3842): Ye IC switching frequency ko control karega jo ki LED driver ke output voltage aur current ko regulate karega.
MOSFET (IRF840): Ye switching IC ke control mein on/off hota hai aur input voltage ko high-frequency pulses mein convert karta hai.
Snubber Circuit: MOSFET ke switching ke dauran generate hone wale noise ko suppress karta hai.
Inductor and Output Stage:
Inductor: Ye high-frequency pulses ko filter kar ke continuous DC current mein convert karega.
Output Capacitor: Ye DC output ko stable aur ripple-free banata hai.
Feedback and Regulation:
Optocoupler: Ye output voltage ka feedback IC ko deti hai taaki output ko regulate kiya ja sake.
Feedback Resistors: Ye voltage divider circuit banata hai jo ki IC ko correct feedback provide karta hai.
Final Output:
Ye stage final regulated DC output provide karta hai jo LED ko desired current aur voltage ke sath supply karta hai.
So Thanks👍👍🙏🙏
Most welcome
Electrolyte capacitor ka values kaise select karthey ho
VERI.GOOD
Dear brother
1/3 it not quarter watt
1/4 is Quarter watt.
Sir organization code ??? For course
Pcviu
Capacitor slection के बारे में अच्छी जानकारी दी है मगर आपने अपने वीडियो में pcb पर 2 capacitor को दिखाया है और driver बनाने के explanation के समय सिर्फ 1 capacitor के बारे में जानकारी दी है। कृपया circuit explanation और driver making explanation।में अन्तर को क्यों दिखाया गया है। यही नहीं आपने mov use करने के बारे में भी जानकारी नहीं दी है। कृपया स्पस्ट करने की कृपा करें और पूरी जानकारी साझा करने की कोशिश करें। अधूरी जानकारी का वीडियो जारी करना उचित नहीं प्रतीत होता है। आपका जबाव महत्त्वपूर्ण है।
Sir, I want some clarifications in my referred comments but you have not replied . I once again request you to pl clarify my quarries which is in both interest and compelled me to connect with you regularly. At present I am fan of Zero Lab, Electronics world, JKR Technical , Techno Mitra and so many channels.
Thank u veri Mach
welcome.. do share this video with your family and friends
❤❤❤ good sir
great
Ap ki tarah video koi doosra nahi banasakta mukamal samj ajati he
20 RGB led ko jalna ke liye kya kya use kare
20 RGB LEDs ko jalane ke liye aapko yeh cheezen chahiye:
RGB LEDs (20)
Power Supply (5V ya 12V)
Resistors (220Ω - 330Ω)
Microcontroller (Arduino, ESP32, etc.)
Jumper Wires
Breadboard (ya PCB)
LED Driver IC (optional, jaise WS2812 for addressable control)
Inhe ek circuit me connect kar ke aap LEDs ko control kar sakte hain.
EC ko bari mey batay kahya kone lagay
ok will try.. do share this video with others
Agar 450v ke capacitor nahi hai toh 250v ke 2 laga sakte
Yes
In one bulb led fused after one month and in another bulb capacitor of 450 volt exploded after two hours.
એલીડી ડ્રાઇવર મા બસો તેવીસ જે બે હજાર વોલ્ટ નો કેપેસીટર લગાવી શકાય કે નહી
એલઇડી ડ્રાઇવર સર્કિટમાં 223J 2000V (બસો તેઇસ જે 2000 વોલ્ટ) કેપેસિટર લગાવી શકાય છે કે નહીં તે કેટલીક પરિસ્થિતિઓ પર આધાર રાખે છે. આ પરિસ્થિતિઓમાં કેપેસિટરનો ઉપયોગ, ઇનપુટ અને આઉટપુટ વોલ્ટેજ રેટિંગ, તથા ડિઝાઇન અને લોડ રિક્વાયરમેન્ટનો સમાવેશ થાય છે.
અનુકૂળતા:
વોલ્ટેજ રેટિંગ: જો કેપેસિટરનો વોલ્ટેજ રેટિંગ ડ્રાઇવર સર્કિટમાં ઉપસ્થિત વોલ્ટેજથી ઊંચો છે અને જરૂરિયાત અનુસાર વપરાય છે, તો તેનો ઉપયોગ શક્ય છે.
કેપેસિટરનો પ્રકાર: એલઇડી ડ્રાઇવર સર્કિટમાં સામાન્ય રીતે EMI ફિલ્ટરિંગ અથવા પાવર રેગ્યુલેશન માટે કેપેસિટરનો ઉપયોગ થાય છે. જો 223J કેપેસિટર વપરાશ માટે યોગ્ય છે અને સ્પષ્ટ ઉત્પાદક માર્ગદર્શિકાનું પાલન કરે છે, તો તે યોગ્ય હોઈ શકે છે.
ચેતવણી:
ખોટા કેપેસિટરને ઇન્સ્ટોલ કરવાથી પ્રદર્શન ઘટી શકે છે અથવા ડ્રાઇવર સર્કિટને નુકસાન પણ થઈ શકે છે.
કેપેસિટરનો પ્રકાર, મૂલ્ય અને રેટિંગ તમામ ડ્રાઇવર સર્કિટની જરૂરિયાતો સાથે મેળ ખાવું જોઈએ.
તમારી ચોક્કસ સિસ્ટમ અને ડ્રાઇવર સર્કિટ માટે, સર્કિટના લેઆઉટ અને ઇલેક્ટ્રોનિક્સ ઇજનેરની સલાહ લેવી સારું રહેશે.
आऊटपुट मे वोल्टेज कितना आता है
Sir mai inverter sekhna chahta hoon
whatsapp me on 9768871110
How I increase life of a repaired led bulb
By Using good quality electronic components
Bai jes led me cappsiter ka zarooreth nhi hotha wow Jedi khrab hojathy he in ka koi hell bthay thaky ye kfi deyr thek chely
Are typing to sahi Karo apna kisi ko koi samajh me nahi aa raha hai aapka comment
225j 400 wt. Laganese m. C. P. B. Jalajati he tokaya kare
Agar aapka 225j 400V capacitor lagane se samandhit prashn hai, to yeh capacitor 225 microfarad (µF) ka hota hai, aur iska voltage rating 400 volts hota hai. Isse lagate waqt aapko kuch baaton ka dhyan rakhna chahiye:
Sahi Polarity: Agar yeh polar capacitor hai (jaise electrolytic capacitor), to uski polarity (positive aur negative terminal) ka dhyan rakhte hue installation karein. Agar galat polarity se lagaya, to capacitor kharab ho sakta hai.
Voltage Rating: Yeh ensure karein ki aapke circuit mein voltage rating 400V se zyada nahi ho. Isse zyada voltage apply karne par capacitor fail ho sakta hai.
Sahi Circuit Position: Capacitor ko us jagah par lagana zaroori hai jahan uski zarurat ho, jaise motor start/run capacitor ke taur par ya kisi power supply ke filter ke roop mein.
Safety: Capacitor ko lagane ke baad, hamesha uske connections check karein ki kahin short-circuit to nahi hai. Aur use karne se pehle power off rakhein.
Agar aap kisi specific application, jaise motor ya power circuit mein, capacitor laga rahe hain to, uske wiring diagram ya user manual ko consult karna hamesha accha rahega.