Two points: (1) you can purchase a light dimmer probably for about the same cost as the components used in this circuit. (2) Without some means of controlling the power output of these small soldering irons, they tend to overheat and burn the tip. This makes soldering more difficult if not impossible. Bonus: soldering will be easier if you use flux from a can, even though the solder wire has a flux core. Stick the tip of the iron in the flux every now and then to help keep it from oxidizing.
The heating element inside is self regulating. Higher current is drawn to bring the tip up to a set temperature that is hot enough to melt solder, and a much lower current is drawn to maintain the heat. That circuit will inhibit the iron from working correctly.
Well that's true for many soldering irons out there, the ones with temperature sensors. The one in the video on the other hand has no feedback loop of any sort. Let's assume it's a 30W iron, it will output 30W of power no matter what, non control over temperature whatsoever. He added a simple ac dimmer so you can lower the power output, but still no control over temperature. Why would you add such a circuit? I wouldn't, looking at his soldering job I'd really consider investing in a proper iron with temperature sensing if i were him... Just saying..
Un circuito simple, sencillo, practico y util, pero lo que hay que agradecer es que muestra el Diagrama, porque muchos otros, quieren que uno vea el video 800 veces para armar algo que no funciona. Asi que este video: felicidades. Gracias.
Использовал для регулировки бытовой регулятор, который шел на плавную регулировку освещения для ламп накаливания в квартире мощность 500 ватт. Затем сделал проще. Вытаскиваю жало паяльника на 1-2 см и его температура понижается. А регулятор стал использовать для уменьшения скорости вращения диска на старой шлифмашинке(болгарке).
Muy Buen Video. Aplicación totalmente Práctica. Esquema limpio y claro. *¡¡¡ BUEN TRABAJO !!!* Mi mayor y mejor Like honesto para ti; muy bien merecido. NOTA: es muy difícil que yo dé Like.
Обычный семисторный регулятор.. плохо, что нет схемы стабилизации температуры, но это лучше чем ничего.. и еще у паяльника теряется (немного) мощность на максимуме.
I guess my question is, does it actually control the temp? Because heat will keep building up regardless unless there is some form of temperature feedback that allows to opens the circuit automatically
Yes, but it's not controlled by temperature directly, and the tip temperature will fluctuate because it's limiting the power, not the temperature. You can use these "triac regulators" for soldering irons with decent results, but proper thermocouple feedback is required for anything better. Best way is to measure the tip temperature, and then make a mark at the point that maintains a good temperature - around 320 Celsius. While heating up, use max power and after 2-3 minutes set the knob to the marked position. Your tip will heat up quickly but then it will settle.
If you don't measure the temp that circuit is not useful....You need enough power to melt solder and those irons came developed for that....If you tried to solder on a big ground pad you need the proper power and temp..
No mi amigo!!!!!!! Solo con 1 diodo 1N4007 en serie con uno d los cable q va a la linea d alimentacion "tendremos un calentamiento leve" en el soldador y con un pulsador q puentee el diodo le daremos el total d alimentacion d la linea d entrada y calentara con el maximo d temperatura q debe tener. Saludos desde Argentina
а чего б тогда сразу не вфигачить stm32+128*32oled+PD/QC и джойстик+турбокнопку? мк позволит сделать быстрый pid, автоопределение тэнов/картриджей, профили и тп тюнинг
The capacitor in a AC dimmer such the one in the video serves a crucial function, along with the resistor it sets the timing to "open and close" the triac at the right times (a AC sine wave repeats itself 60 times per second, assuming 60hz). Timing being off, by not knowing how to choose them properly, will result in a failed modulation. Hope this helps
Two points: (1) you can purchase a light dimmer probably for about the same cost as the components used in this circuit. (2) Without some means of controlling the power output of these small soldering irons, they tend to overheat and burn the tip. This makes soldering more difficult if not impossible. Bonus: soldering will be easier if you use flux from a can, even though the solder wire has a flux core. Stick the tip of the iron in the flux every now and then to help keep it from oxidizing.
The heating element inside is self regulating. Higher current is drawn to bring the tip up to a set temperature that is hot enough to melt solder, and a much lower current is drawn to maintain the heat.
That circuit will inhibit the iron from working correctly.
Well that's true for many soldering irons out there, the ones with temperature sensors. The one in the video on the other hand has no feedback loop of any sort. Let's assume it's a 30W iron, it will output 30W of power no matter what, non control over temperature whatsoever. He added a simple ac dimmer so you can lower the power output, but still no control over temperature. Why would you add such a circuit? I wouldn't, looking at his soldering job I'd really consider investing in a proper iron with temperature sensing if i were him... Just saying..
Many cheap irons are not self regulated and will burn or overheat. This is a great circuit for those cases
Un circuito simple, sencillo, practico y util, pero lo que hay que agradecer es que muestra el Diagrama, porque muchos otros, quieren que uno vea el video 800 veces para armar algo que no funciona. Asi que este video: felicidades. Gracias.
gracias
Eso es verdad.
Использовал для регулировки бытовой регулятор, который шел на плавную регулировку освещения для ламп накаливания в квартире мощность 500 ватт. Затем сделал проще. Вытаскиваю жало паяльника на 1-2 см и его температура понижается. А регулятор стал использовать для уменьшения скорости вращения диска на старой шлифмашинке(болгарке).
Das ist äußerst Praktisch.Danke schön ❤
Just new to your channel and loving it 👍🇮🇪💚🙏🏼
welcome to my channel , I hope you Enjoy watching
Muy Buen Video.
Aplicación totalmente Práctica.
Esquema limpio y claro.
*¡¡¡ BUEN TRABAJO !!!*
Mi mayor y mejor Like honesto para ti; muy bien merecido.
NOTA: es muy difícil que yo dé Like.
Muchas gracias por darme las palabras.
Witam. Ciekawe urządzenie też kiedyś bawiłem się w wynalazki fajna sprawa. Pozdrawiam🙂👍
Dziękuję ci
👍@@Inventor_AW 👍Good! Home line-220 Volt AC. Soldering iron (heat-110 Volt AC)!!! Dimmer sсhem no???
Обычный семисторный регулятор.. плохо, что нет схемы стабилизации температуры, но это лучше чем ничего.. и еще у паяльника теряется (немного) мощность на максимуме.
I've had this controller for 40 years. Only I have it as a separate block.
I guess my question is, does it actually control the temp? Because heat will keep building up regardless unless there is some form of temperature feedback that allows to opens the circuit automatically
it's works
Yes, but it's not controlled by temperature directly, and the tip temperature will fluctuate because it's limiting the power, not the temperature. You can use these "triac regulators" for soldering irons with decent results, but proper thermocouple feedback is required for anything better.
Best way is to measure the tip temperature, and then make a mark at the point that maintains a good temperature - around 320 Celsius. While heating up, use max power and after 2-3 minutes set the knob to the marked position. Your tip will heat up quickly but then it will settle.
If you don't measure the temp that circuit is not useful....You need enough power to melt solder and those irons came developed for that....If you tried to solder on a big ground pad you need the proper power and temp..
two in one regulator and automatic on off
No mi amigo!!!!!!! Solo con 1 diodo 1N4007 en serie con uno d los cable q va a la linea d alimentacion "tendremos un calentamiento leve" en el soldador y con un pulsador q puentee el diodo le daremos el total d alimentacion d la linea d entrada y calentara con el maximo d temperatura q debe tener. Saludos desde Argentina
يتعذر الاشتراك ولا يوجد جرس-يتعذر الاستجابة لكل طلباتك-يتعذر التعليق-لا أعلم .
Зачем такой мощный симистор?Или это для паяльника 3 кВтт?
excelente a idéia, mais pécimo a explicação de soldar quem em quem ( O QUE EM QUE)
С первых секунд понял … В моём паяльнике изначально это установлено в ручке )
Sir can i use L7805CV transistor
no you can't
@@Inventor_AW ok sir 😁😁
Como modificar el circuito, ya que en mi país, Venezuela, la electricidad doméstica es de 120 voltios? Por favor
В схеме 2:17 номиналы резисторов R2 и RV1 нужно уменьшить вдвое. Это классическая схема симисторного регулятора мощности.
Los valores de las resistencias deben reducirse a la mitad.
@@Inventor_AW Muchas gracias
How is a heatter?
100 W
60W
GOOD
60 W
very nice
so thanks
а чего б тогда сразу не вфигачить stm32+128*32oled+PD/QC и джойстик+турбокнопку?
мк позволит сделать быстрый pid, автоопределение тэнов/картриджей, профили и тп тюнинг
Hjjjj
Tienes el diagrama del circuito ????
ruclips.net/video/fQ3tn61j0iA/видео.html
Bien por compartir, sigan así
gracias
Recuerdo por ahí tengo ese circuito y trabaja
اظن انها تحتاج اضاءه مصغره لبيان عمل الدريمر
We have a 4.2V output to charge the phone and 12V to power other devices
الله يبا كلك في علمك
Alguien sabe qué función cumple el capacitor en éste circuito? Siempre los capacitores tienen una función que me desconcierta
The capacitor in a AC dimmer such the one in the video serves a crucial function, along with the resistor it sets the timing to "open and close" the triac at the right times (a AC sine wave repeats itself 60 times per second, assuming 60hz). Timing being off, by not knowing how to choose them properly, will result in a failed modulation. Hope this helps
C1 = 0/1 uf (104j400)
👍👍👍👍👍👍❤️❤️👍👍
WoW!
Bom dia parabens muito bom
obrigada
Muy útil
Esse regulador não dá o valor da temperatura. Ficou nmesma.
и схема хорошая и идея сделано правда по хрень ...ую.. или через ...
Materiales
Tienes el diagrama del circuito ????
mạch điều khiển Động cơ
100 nano not 1 nano
yes it's 100 n
Video won't start - RUclips are useless!
สุดยอด👍
Semplicemente inutile.
Это фигня паяльник надо менять.
The Cool Cool Cool...