Hobby Life with Iyke Phelim is a captivating and inspiring RU-vid channel that takes you on an exciting journey into the world of hobbies and leisure activities.
Through immersive videos and informative tutorials, Hobby Life with Iyke Phelim offers a treasure trove of knowledge, diys, tips, and tricks to help you discover new hobbies or enhance your existing ones. Whether you're interested in arts and crafts, outdoor adventures, cooking, photography, gaming, or anything in between, this channel has something for everyone.
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Grab your tools, unleash your creativity, and embark on an extraordinary journey of self-discovery and fulfillment. Get ready to embrace the joy of hobbies and unlock a world of endless possibilities!.
all you have to do is look at the output on the display. I fit's on-off-on-off it's a PWM. They are nothing but a switch providing pulses. MPPT will vary at first, and be a steady number
@iykephelim Hello! Thanks for this video. I just got a Sunfit AGM 12v/200AH battery. When I plugged it for thr first time, it shows its fully charged. I've been trying to find information about whether this is notmal. What do you think? Shoukd I return it?
Lol, same happened to me, I got note between input and output are same current! impossible! Must be low current input than output is more current depend high volt input example 15 volts or above, and output 12-14 volts battery meaning MPPT, but it's PWM! Damn, better get quality expensive and heavy include inductor coil.
Voltage drop normally occur in the wires and read at the load point.. for example, the inverter could display 220V and you might get a reading of 215V inside your house.. that is voltage drop. In this case, the fluctuating voltage is in the inverter.
An AC battery charger which was used inside the house to charge some 100ah DC batteries seems to be the cause. As soon as I disconnected the AC charger, the fluctuations reduced by 95%
Reduce the number of panels connected in series to match the max output voltage assigned for your battery bank. If you're using a 24v battery bank make sure your panels do not output a voltage higher than 50V. If you're using a 48V battery bank make sure you don't output a voltage higher than 100V. If you exceed these voltages, the panel indicator in the controller will start blinking to indicate over voltage. You can rearrange in a parallel configuration, for example: if 3 series 2 parallel gives over voltage and your panel indicator starts to blink, rearrange the panels to a 2 series 3 parallel configuration (lower voltage, higher amps). This will output the same power and won't show the blinking panel on your controller.
