the TL431 is such an iconic and widely use zener regulator. it always so accurate all. a must have in all components boxes.. ; ) (if your looking to salvage one from a circuit! look at the opto-coupler section on nearly any PSU. you will find it as part of the feed back circuitry, mostly as a SMD package.)
The TL431 is a three-terminal adjustable voltage regulator that can provide an output voltage of 1.24 V to 36 V. It is used in a wide variety of applications, from simple voltage regulation to complex feedback systems. The TL431 is very accurate and reliable, making it a must-have for any electronics toolkit.
we will discuss two simple shunt regulator circuits using the TL431 voltage regulator. The first circuit is a basic shunt regulator, while the second circuit is a more efficient shunt regulator with an error amplifier. The first circuit is a basic shunt regulator using the TL431 voltage regulator. In this circuit, R1 and R2 form a voltage divider to set the output voltage of the regulator. C1 filters out any noise or ripple on the supply voltage and provides a smooth dc output to the load. D1 protects the load from reverse current flow if the supply voltage is reversed. The second circuit is a more efficient shunt regulator with an error amplifier.
An adjustable DC supply is a power supply that can provide a range of voltages. This is handy for powering electronics projects, as you can select the voltage that is most appropriate for your needs. You can buy adjustable DC supplies, or you can make your own using a voltage regulator circuit. There are a few different types of voltage regulator circuits, but the most common is the linear regulator. This type of regulator uses a transistor to control the amount of current flowing through the circuit. By varying the amount of current, the voltage can be controlled. There are two main factors that you need to consider when choosing a voltage regulator: the maximum input voltage and the maximum output current. The maximum input voltage is the highest voltage that the regulator can handle, while the maximum output current is the maximum current that the regulator can provide.
According to my simulation in the Falstad circuit applet, If the input voltage is 12.6V and you want to stay within USB limits (4.4V minimum) the limit is 37mA but the voltage starts already dropping below 5V at 34mA.
I like these TL431 circuits. Thankyou.
Excellent job , thanks a lot for those great test and inspection circuits.Your channel is so great and deserves to be subscribed and followed
the TL431 is such an iconic and widely use zener regulator. it always so accurate all. a must have in all components boxes.. ; ) (if your looking to salvage one from a circuit! look at the opto-coupler section on nearly any PSU. you will find it as part of the feed back circuitry, mostly as a SMD package.)
The TL431 is a three-terminal adjustable voltage regulator that can provide an output voltage of 1.24 V to 36 V. It is used in a wide variety of applications, from simple voltage regulation to complex feedback systems. The TL431 is very accurate and reliable, making it a must-have for any electronics toolkit.
that's all true.. despite of your bad written english. lol
THANK for make the video :)
Love that soldering iron
👏👏👏
we will discuss two simple shunt regulator circuits using the TL431 voltage regulator. The first circuit is a basic shunt regulator, while the second circuit is a more efficient shunt regulator with an error amplifier.
The first circuit is a basic shunt regulator using the TL431 voltage regulator. In this circuit, R1 and R2 form a voltage divider to set the output voltage of the regulator. C1 filters out any noise or ripple on the supply voltage and provides a smooth dc output to the load. D1 protects the load from reverse current flow if the supply voltage is reversed.
The second circuit is a more efficient shunt regulator with an error amplifier.
Still now, he had opened all the things present in his home.😄😄
Adamsın❤
Bhai inme 5 volt input dekar 12 volt DC motor 555 Chala sakte hai kiya
Berapa amper yg bisa dilalui
Is it possible to do an adjustable DC supply from 0,1V to 30V?
Should I use an 100k potentiometer or 250k?
An adjustable DC supply is a power supply that can provide a range of voltages. This is handy for powering electronics projects, as you can select the voltage that is most appropriate for your needs. You can buy adjustable DC supplies, or you can make your own using a voltage regulator circuit.
There are a few different types of voltage regulator circuits, but the most common is the linear regulator. This type of regulator uses a transistor to control the amount of current flowing through the circuit. By varying the amount of current, the voltage can be controlled.
There are two main factors that you need to consider when choosing a voltage regulator: the maximum input voltage and the maximum output current. The maximum input voltage is the highest voltage that the regulator can handle, while the maximum output current is the maximum current that the regulator can provide.
❤❤❤
Thank you very much ,,,,,,
Nice
Thanks
Why you never use power supply to supply and adjust the voltage up or down ?
Amazing
Remod control kar kaise banate hai banakar bataeye
How many mA support?
According to my simulation in the Falstad circuit applet, If the input voltage is 12.6V and you want to stay within USB limits (4.4V minimum) the limit is 37mA but the voltage starts already dropping below 5V at 34mA.
Это какой то ужас, хочешь смотреть спокойно ролик а тут какая то музыкальная группа приехала,долбит и долбит по мозгам, плюешь и закрываешь ролик
كيف فحصووع الساعة وهو برة الدائرة
Ótimo
3.3v se 60 v banane ka video banao bro, please
Nat good time west
Creativity
Music se kuch nahi samjha
Ótimo?
👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎 Background music mixed unnecessarily..👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎👎
No tiene lógica eso.
Dislike
How many mA support?
30 mA ,,,,,,
👏👏👏
Nice