Very nice! I am currently working on a high power 5000W synchronous dc to dc boost converter system and I am planning to use TL494 as well. Great video. Success wishes! 👍👍 The Innovati0n Lab💥
@@TricksOfAli Absolutely! Keep us posted on your progress, and I will do the same. I have my eyes on 1000W - from an input of 12V....which seems super hard to do..hahaha
Interesting and well done! I have however an observation: in the circuit diagram shown at 5:38, are the two pwm signals complementary ( one goes up while the other goes down with some dead time in between?
@@TricksOfAli Thank you. The signals as drawn do not reflect that though. My other question is; is the Pwm signal too week that we need the two transistors at each outputting to boost it or do they serve other purpose? Thank you?
How can I calculate the powrr ratings for all the resistors..are they different according to their pin or can I just take it as my total input/output power of the circuit?
The power of resistors depends on the number of transistors and their power. (Their accurate calculation requires the information of the whole circuit and the model of the parts)
Hola, muy buen video. Queria realizarte algunas consultas: ¿La tensión máxima de los pulsos PWM obtenidos a la salida de que valor es? ¿Esta tensión maxima es regulable o siempre será constante? ¿Esos pulsos PWM obtenidos en la salida se podrían usar para alimentar un puente H? Muchas gracias por el video, fue de mucha ayuda.
Hola, disculpa la demora. El voltaje de salida es de 12 voltios. Se puede cambiar a través de los transistores de amplificación de pulso, pero no necesita un voltaje más alto, 12 voltios son suficientes para controlar los transistores, pero puede usar transistores más grandes para aumentar su corriente.
Hola buen video,te queria preguntar si es obligatorio usar esos transitores NPN y PNP,o puedo solamente usar la salida para existar la bace de dos transistores NPN?
Hola querido amigo . Para impulsar los MOSFET, se necesita más corriente que la corriente de salida del IC. Pero en potencias por debajo de los 100 watts, se puede usar sin transistores
Very nice!
I am currently working on a high power 5000W synchronous dc to dc boost converter system and I am planning to use TL494 as well.
Great video.
Success wishes!
👍👍
The Innovati0n Lab💥
Good luck. I am also working on the Buck Boost project with high power. I hope we will be successful together
@@TricksOfAli
Absolutely! Keep us posted on your progress, and I will do the same. I have my eyes on 1000W - from an input of 12V....which seems super hard to do..hahaha
@@theinnovati0nlab782 Everything is possible, we will definitely do it😊💪
Interesting and well done!
I have however an observation: in the circuit diagram shown at 5:38, are the two pwm signals complementary ( one goes up while the other goes down with some dead time in between?
Hi dear friend . Yes, exactly two pwm signals are complementary, one goes high while the other goes low with some dead time in between.
@@TricksOfAli
Thank you.
The signals as drawn do not reflect that though.
My other question is; is the Pwm signal too week that we need the two transistors at each outputting to boost it or do they serve other purpose?
Thank you?
The pwm output is 5 volts and we make the output 12 volts with two transistors, and the pwm ic output is not enough to run several transistors.
very good❤❤
Can i control dead time with this circuit?
I want to get 220v 50khz does this circuit helps me?
God job
Beau travail
عمل جيد
حبیبی نورالعین 🙏
Exactly which part of the circuit are the multimeter probes connected to for frequency measurement?
@@TEACHELECTRONIC داداش پراب منفی به منفی مدار و مثبت به بین دوتا ترانزیستور تقویت وصل میشه یا بعد مقاومت 😉
How can I calculate the powrr ratings for all the resistors..are they different according to their pin or can I just take it as my total input/output power of the circuit?
The power of resistors depends on the number of transistors and their power.
(Their accurate calculation requires the information of the whole circuit and the model of the parts)
What is the minimum frequency?? The title says 50Hz but the lowest that is shown in the video is around 12kHz
Luar biasa.video yang bagus
Hola, muy buen video. Queria realizarte algunas consultas:
¿La tensión máxima de los pulsos PWM obtenidos a la salida de que valor es? ¿Esta tensión maxima es regulable o siempre será constante?
¿Esos pulsos PWM obtenidos en la salida se podrían usar para alimentar un puente H?
Muchas gracias por el video, fue de mucha ayuda.
Hola, disculpa la demora. El voltaje de salida es de 12 voltios. Se puede cambiar a través de los transistores de amplificación de pulso, pero no necesita un voltaje más alto, 12 voltios son suficientes para controlar los transistores, pero puede usar transistores más grandes para aumentar su corriente.
Hola una pregunta con el ic tl494 podremos controlar el amperaje
yooo, maybe can't
Nice video, thanks :)
Thank you for your nice comment
Can bc547 replace the 4 transistors?
In bc547 current drawn is 100ma. So s8850 is used
Hola buen video,te queria preguntar si es obligatorio usar esos transitores NPN y PNP,o puedo solamente usar la salida para existar la bace de dos transistores NPN?
Hola querido amigo . Para impulsar los MOSFET, se necesita más corriente que la corriente de salida del IC. Pero en potencias por debajo de los 100 watts, se puede usar sin transistores
Please I need a clear picture of your schematics
Hello, dear friend. I will upload the schematic in pdf form for you and put the link
drive.google.com/file/d/1tncD4F5I6uI5vp_PsRh5O9sIYaCKyVdj/view?usp=sharing
Sir ji plz circuit diagram
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