| Author | Message | ||
     Erwin69 |
Hello everyone, In my first post - I might want to ask some assistance for auto battery charger in my buell-XB9S. As the exposition appears, This auto battery charger circuit can be utilized to charge 12V and 6V batteries. On the off chance that it is utilized a transformer that can convey 4A to 5A at a voltage in the vicinity of 12.6V and 16V then we can dispose of the switch for 6V or 12V batteries. The schematic is given beneath. It likewise gave some support tip about the auto battery. The auto battery charging current is consequently constrained to 4.2A. On the off chance that there is a 600mV voltage on R1 (4A through it), at that point, the T1 transistor begins to direct. Inordinate charging current is stayed away from in light of the fact that the present estimation of T3's base is constrained. The distinction between connected load current (at T4's authority) and genuine voltage of the battery are adjusted through T4's gatherer producer intersection. According to the data sheet of 2N3055AG https://www.icrfq.com/part/1926205-2N3055AG.html The power contribution of 2N3055AG is the result of load current and voltage distinction as of now said. While charging 6V auto battery this power achieves a greatest of 40W. The rectifier diodes must have the capacity to convey 4A at 40V. T4 2N3055 must be mounted on a decent heat sink keeping in mind the end goal to scatter the warmth. I can't comprehend what by x21-40 is? 1) Is it like a diode rectifier ?? 2)and what is 21-40 implies like between 21-40 or simply it's data sheet code (since I scarcely discovered it on google) 3)and if it's being sold similarly as it is and consider the possibility that I didn't discover it in the market. Thanks to anyone who replies, and sorry to everyone for asking too much question. |
