140w
these are the specs of other panel
Max power (pmp)=140W
Max power current (imp) =7.79A
Max power voltage (Vmp)=17.96v
short circuit current (ISC)= 8.34A
open circuit voltage (VOC)= 21.08V
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What is the VMP rating of the panels? It should be listed in the panels specification
open circuit voltage 44v
short circuit current 8.09a
Max power voltage 34v
Max power current 7.47a
i could find only these specs....Leave a comment:
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What are the panel voltages and how are the wired together? What charge controllers..
Well, m using Phocos charge controller CX40. All panels are connect parallel. It was in series 1st but my vendor suggest me to connect them parallel. are you talking about voltage that they are producing or they are capable of producing?Leave a comment:
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That's a loaded 240V ac well pump, with no power factor correction. Reading is directly off the XW's control panel. It's real. Tables show about 750w - 1hp, but don't account for PF losses. I think I'd calculated the motor draw, and was expecting to see about 800w pull, but had no # for PF and it's loss. This was 3 years ago when I was pump shopping, and I don't have all that data at hand anymore.Leave a comment:
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What are the panel voltages and how are the wired together? What charge controllers are you using?
We also need to know the total time the motors are running in a day instead of just the "after dusk" time?
One big thing I see missing in all your thoughts is allowing for system inefficencies. Usually that is somewhere around 30% to 50% depending on charge controller and system design. I'm guessing your array needs to be at least twice the size it is now and the battery bank needs to be at least 4 times it's current size to get you though the night and at least 1 cloudy day.
WWWLeave a comment:
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my 1/2 pump pulls 1,000 watts from the inverter.
I've checked its ampere, one motor takes more then 6 ampere on starting just for 1 sec but then get stable at 3.71 or 3.72...I am not very much a technical guy neither have experience with electric devices. I am working just to learn new ways to produce energy. So, please dun laugh at my silly questions
My other question still needs an answer that why my 240 watt panel and 140 watt panels is producing same amount of amperes and how what is the contribution of watts in charging the batteries.Leave a comment:
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Mike 1000 w does seem very high for a 1/2 hp motor. I have a 3/4 hp window aircon and at full running it draws 820w. on that basis 1000 for 1/2 hp seems very high.
I just remembered for a while a long time ago I was running a 1/2 hp powered saw bench off a 800w MSW inverter . Iremember a few times it tripped in starting but was ok after starting. it cut 1/2" plywood sheets ok.Leave a comment:
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Look at the operating curves for the pump from the manufacturer - that will give you an indication of the running amps with various outlet conditions.
Mike told you about the startup currentLeave a comment:
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Thanks you all for you concern...
this is my area details as far a sunlight is concern.
I've installed 2 more panels today now I've 1440watts and my ampere went up to 40A. as per my understanding 1/2 horse power motor takes 373 watts.
so
373 x 3 =1119 watts.I still have leverage of 321 watts.
its is very rare that all three motors start at a same time. there is always one or two minutes delay.
Even I've installed two more batteries of 200Ah each so my total battery bank is now of 1000Ah. After dust all my motors run for more then 90 min each.
so
3x90=270mins
I've an other question for you guys...
I've installed an other system with 4 panels of 140 Watts each. but if i see the ampere that these panels are generating, these are nearly equals to my 240 watt Panels. I just want to know what is the contribution of watts in recharging of batteries as both of the panels are generating same amount of amperes.Leave a comment:
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You need to consider the starting surge for the motors, and choose an inverter that can manage the required current surge.
I would suggest a 24V system, as that reduces the amps in half, from a 12V system. Saves on wire losses, which are critical when starting a motor.
My well pump is 1/2 hp, and consumes 1,000 watts while running, and likely at least 5,000 when starting for 1 second.Leave a comment:
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GAISMA has data for Pakistan
Most loactions seem to have winter lows of under 3 hours with a couple being under 2 hours daily average. You can't design an off-grid system based on 8 hours and expect it to work when you only have an average of 2 hours insolation available.
WWWLeave a comment:
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You are posting from Pakistan? Are you in an area affected by the monsoon season?
You do seem to get good sun - PV Watts has no locations in Pakistan şisted but in a neighboring state in India the annual average insolation is listed at 6 kW/m2/day.Leave a comment:
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