👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻व्हिडिओज मे बॅकग्राऊंड म्युझिक मिक्स करके तुमने तुम्हारे हाथो से अच्छे व्हिडिओज खराब कर दिए... 👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻 ज्यादातर युट्युबर्स अपने व्हिडिओज को आकर्षक बनाने कि चक्कर मे म्युझिक मिक्स करते है लेकिन यह किसींको भी पसंद नही आता... लोग ऐसे म्युझिक मिक्स किए हुए व्हिडिओज को स्कीप करके देखते है या तुरंत बंद करके दुसरा देखते है... म्युझिक से देखनेवाले को बहोत तखलिफ होती है, लेकिन कोई भी व्हिवर्स कॉमेंट मे इस बात को नही लिखता इसिलिए तो युट्युबर्स यही गलती बार बार करतेही है... 👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻👎🏻 सिर्फ बॅकग्राऊंड म्युझिक की वजह से सबस्क्राईब नही किया.. व्हिडिओ डिस्लाईक करके तुरंत बंद करा दिया...
Could this circuit be modified so that it will only activate at low voltage condition? For instance, if I removed the Green (Full Charge) LED, would the red LED only activate at the low voltage?
Hi am connect ttp223 with 5 v relay and use B mode but when ttp223 sensor put on a support I mean fixed with board automatically sensor off after 5-8 secondly, what is the issue? Any solution? Even if a paper touch sensor goes off
Bom,eu não entendo nada disso aí 🤣 mas tenho um filho gênio que se interessa muito ele já montou dois paredões de som ,ele mesmo faz as caixas comprar os equipamentos na internet e monta ele ,recupera auto falantes e tudo , tenho um filho Sup super inteligente ,😢a dor da minha alma foi um acidente que o deixou sem um dos braços mas ele consegue tocar dia vida fazendo o que gosta , montando SOM
I think that the positive wire of battrey( one of the red) should be better connect the end of diodes or green led positive And for one of the diodes, it create 0.2 voltage. It means if the power supply has the 12 volt, the battery get charged to 11.8 volt I don't try it, and I just analyzed it
That looks 👌 so interesting!! I'm an electronics geek, and have been since my childhood. Just came across your channel and subscribed 👍!! Please keep these fascinating electronics videos coming!! Your friend, Jeff!!
Is the circuit for the last project correct? The output is connected directly to the input, so the voltage will remain at 5V dc regardless of the status of circuit in between!
Hello friend, I am trying to make a solid state relay with a PC817 and an IRFZ44N, but I am sure I am doing something wrong, could you help me or make a video based on the schematic I have? Please where can I send you the schematic?
You've added a diode bridge rectifier to the capacitor bank! With the 4x 25V 6800uF capacitors in parallel, and the 4x 1N4007 diode bridge rectifier connected to the capacitor bank's positive and negative terminals: - The diode bridge rectifier will convert the AC output from the 9-0-9 300mA transformer to DC, charging the capacitor bank. - The capacitor bank will store energy, which can then be discharged through the diode bridge rectifier to create a high-current pulse. Now, connecting the transformer: - The 9-0-9 300mA transformer will provide a 9V AC output, which the diode bridge rectifier will convert to DC. - The capacitor bank will charge to approximately 12-13V DC (depending on the diode bridge rectifier's forward voltage drop). This setup can be used for spot welding, as it provides: - A high-current pulse (approximately 100-200A) due to the capacitor bank's discharge - A relatively short pulse duration (approximately 1-5ms) due to the capacitor bank's discharge curve However, keep in mind: - The 300mA transformer output is relatively low, which may limit the welding current and pulse duration. - The 1N4007 diodes may not be suitable for high-current applications; consider using higher-current diodes (e.g., 1N5408 or 6A4). To optimize this setup for spot welding, consider adding: - A pulse shaping circuit to control the pulse duration and shape - A welding electrode and holder for precise control - A safety circuit to prevent over-discharge or short circuits