XW+6848 Adjusting Output Voltage?
ColoradoSolar
Registered Users Posts: 63 ✭✭
I have a new off-grid system I just brought on-line that includes an XW+6848. The output voltage is 117/235. I was wondering if it is possible to adjust the voltage higher? I know it is within the XW+6848 specs of +/- 3% but my solar room is in the barn about 100' away from the house so I would like to compensate some for the voltage drop getting to the house.
Thanks,
Eric
Thanks,
Eric
Comments
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I've got a 6848 about 6' from the Conext battery monitor shunt and reads 122v or 244v with both lines feeding, 70' from the control panel (Conext), and about 250' from the pump. Having said that I'm not aware of any ability to adjust the output voltage. I haven't checked the voltage at my 1.5hp pump but it seems quite happy with the 6848's power.
I suspect most 240v pumps are quite happy at 230+v. Only been running my 6848 for two years but I suspect I may have a bit more inverter than I needed since the pump was the defining load and draws about 2300 watts.
A thought from another thread you've got. I started with a Magnum PT-100 controller but quickly learned that having a Conext controller worked better with the Conext control panel for fine adjustments to the charging routine.
Conext XW6848 with PDP, SCP, 80/600 controller, 60/150 controller and Conext battery monitor
21 SW280 panels on Schletter ground mount
48v Rolls 6CS 27P
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WaterWheel is correct. There is not any user adjustability and voltage loss should be addressed in wire sizing.
The actual voltage is adjusted internally dynamically by the XW and there is firmware that can be written for this.
Schneider will not want to bill you to write firmware that would void your warranty and so we are back to wire sizing.
The XW is a DSP device and almost everything is adjustable. I hope this helps."we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
Dave Angelini said:WaterWheel is correct. There is not any user adjustability and voltage loss should be addressed in wire sizing.
The actual voltage is adjusted internally dynamically by the XW and there is firmware that can be written for this.
Schneider will not want to bill you to write firmware that would void your warranty and so we are back to wire sizing.
The XW is a DSP device and almost everything is adjustable. I hope this helps. -
You have something else wrong if your appliance is that sensitive in my opinion!"we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
Dave Angelini said:You have something else wrong if your appliance is that sensitive in my opinion!
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I'm also using a XM6848 to power my 1.5hp well pump. The voltage is also a bit low, 235VAC. I've also noticed something that might be relevent to the topic. Until this year, I powered the well pump with a 6kw gasoline generator. Over the years I've kept detailed records as to starting and stopping times, gallons of water pumped, and gallons of gasoline consumed. My long-term overall average for pumping water works out to be ~275-280 gallons per hour, based on 6-8 hour runs. The running amperage while under generator power was 10.0amps at exactly 240VAC.
Now that I'm powering the well with the XM, my water output has climbed to ~320-325 gallons per hour. It's only a 15% increase, but uniform from day to day. I would interpreate this as the pump motor running more smoothly on "cleaner" AC produced by the XM, compared to the generator. It's still drawing 10.0 amps as indicated by my Fluke clamp.
System 1) 15 Renogy 300w + 4 250W Astronergy panels, Midnight 200 CC, 8 Trojan L16 bat., Schneider XW6848 NA inverter, AC-Delco 6000w gen.System 2) 8 YingLi 250W panels, Midnight 200CC, three 8V Rolls batteries, Schneider Conext 4024 inverter (workshop) -
MichaelK said:Now that I'm powering the well with the XM, my water output has climbed to ~320-325 gallons per hour. It's only a 15% increase, but uniform from day to day. I would interpreate this as the pump motor running more smoothly on "cleaner" AC produced by the XM, compared to the generator. It's still drawing 10.0 amps as indicated by my Fluke clamp.
I would not think that the power provided by the XM is any better/worse than the generator, after all the generator is putting out a true sine wave, whereas the XM is reconstructing a true sine wave. You can get better answers from a well forum, I use the guys at http://www.pumpsandtanks.com/ to answer questions, as they don't try to sell you something that you don't need.
Rancher -
i'll disagree with generators being inherently "cleaner". I have 2 gensets, both have waveform issues. 1 has pi$$ poor power factor and can barely run my pump, which, being a large (1/2hp) motor, has poor PF.Powerfab top of pole PV mount | Listeroid 6/1 w/st5 gen head | XW6048 inverter/chgr | Iota 48V/15A charger | Morningstar 60A MPPT | 48V, 800A NiFe Battery (in series)| 15, Evergreen 205w "12V" PV array on pole | Midnight ePanel | Grundfos 10 SO5-9 with 3 wire Franklin Electric motor (1/2hp 240V 1ph ) on a timer for 3 hr noontime run - Runs off PV ||
|| Midnight Classic 200 | 10, Evergreen 200w in a 160VOC array ||
|| VEC1093 12V Charger | Maha C401 aa/aaa Charger | SureSine | Sunsaver MPPT 15A
solar: http://tinyurl.com/LMR-Solar
gen: http://tinyurl.com/LMR-Lister , -
cow_rancher said:Many things affect your GPM rate, the most obvious would be a rise in the static water level in your aquifer, how deep is your well, and how deep is the static water level, and is that the vein of gravel/sand where you are getting your water from, it all makes a difference.
RancherI think statements about water level and the depth of the well are totally irrelevent to the discussion at hand. If I'm pumping water at 275 gallons per hour on Saturday with the generator, and 325 gallons per hour on Sunday with the inverter, then I think that has something to do with the inverter. I've been pumping water out of this well for 10 years now, so I think I should know how my well behaves.
System 1) 15 Renogy 300w + 4 250W Astronergy panels, Midnight 200 CC, 8 Trojan L16 bat., Schneider XW6848 NA inverter, AC-Delco 6000w gen.System 2) 8 YingLi 250W panels, Midnight 200CC, three 8V Rolls batteries, Schneider Conext 4024 inverter (workshop) -
With all of your experience I would think a 15% difference would not be a big deal, as you said.
I think cow_rancher and Mike were just trying to help you. If you look at the waveforms on an oscilloscope you might find out quite a bit. There is an error in a clamp-on that is not there with a shunt current measurement also.
"we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
Dave Angelini said:If you look at the waveforms on an oscilloscope you might find out quite a bit. There is an error in a clamp-on that is not there with a shunt current measurement also.Yes, that is exactly my plan. I picked up this Leader 522 at a local swap meet that I plan on using to look at waveform.
System 1) 15 Renogy 300w + 4 250W Astronergy panels, Midnight 200 CC, 8 Trojan L16 bat., Schneider XW6848 NA inverter, AC-Delco 6000w gen.System 2) 8 YingLi 250W panels, Midnight 200CC, three 8V Rolls batteries, Schneider Conext 4024 inverter (workshop) -
mike95490 said:i'll disagree with generators being inherently "cleaner". I have 2 gensets, both have waveform issues. 1 has pi$$ poor power factor and can barely run my pump, which, being a large (1/2hp) motor, has poor PF.
Rancher -
The waveform of both inverters and generators can be either clean sine wave or dirty sine wave, the quality of the device determines what it produces, cheap versions of both can have total harmonic distortion so high, the output hardly resemble pure sine wave, so a blanket statement claiming one is better than the other can't really be made with confidence, the old adage you get what you pay for( although not always ), comes to mind. Link shows some scope images as examples http://www.jkovach.net/projects/powerquality/1500W, 6× Schutten 250W Poly panels , Schneider MPPT 60 150 CC, Schneider SW 2524 inverter, 400Ah LFP 24V nominal battery with Battery Bodyguard BMS
Second system 1890W 3 × 300W No name brand poly, 3×330 Sunsolar Poly panels, Morningstar TS 60 PWM controller, no name 2000W inverter 400Ah LFP 24V nominal battery with Daly BMS, used for water pumping and day time air conditioning.
5Kw Yanmar clone single cylinder air cooled diesel generator for rare emergency charging and welding. -
mcgivor said:Link shows some scope images as examples http://www.jkovach.net/projects/powerquality/
Will get back to you later on this
System 1) 15 Renogy 300w + 4 250W Astronergy panels, Midnight 200 CC, 8 Trojan L16 bat., Schneider XW6848 NA inverter, AC-Delco 6000w gen.System 2) 8 YingLi 250W panels, Midnight 200CC, three 8V Rolls batteries, Schneider Conext 4024 inverter (workshop) -
Be careful with the o'scope....
Most scopes have the ground clip of the probe connected to the chassis ground of the scope (and the ground prong of the AC plug). The input is not "isolated".
It is easy to create a short between AC hot and ground if you are not watching what you are doing and/or do not have the right equipment to make the connections.
If you want just one trace to show (for example) voltage--You can connect AC1 to probe A, and AC2 to probe B, set probe be "invert" and Add A+B. Just clip the two probe ground together and to nothing else.
If you want to measure both current and voltage--You might do OK with just connecting AC1 Hot to Probe A, and leave the ground clip unconnected. And use probe B for the current probe (with a current transformer or possible a current shunt/precision resistor in the neutral lead).
Ideally, you want active differential probes for 120+ VAC to provide isolation between AC mains and the o'scope. However, these are not usually cheap ($600=>many thousands of dollars). There are some "scope systems" that may be less, but may not fit standard BNC scope connections. Or isolated AC input capable o'scopes.
Otherwise, using an 120 VAC rated isolation transformer (i.e., 120 to 12 VAC) and connecting your probe to the 12 VAC output would work fine--The question is the "band width" of the AC transformer (would it filter out the higher frequency waveform distortions)?
Generally, an AC current probe works nice:
https://www.ebay.com/sch/items/?_nkw=oscilloscope+ac+dc+probe
We also used to use an AC isolation transformer to "float" the scope, and then connect the probe signal and ground leads as needed... But that does (usually) make the scope chassis "hot".
Anyway--Be very sure of what you are doing.
-Bill
Near San Francisco California: 3.5kWatt Grid Tied Solar power system+small backup genset -
Just wanted to update this thread. Turns out there is an easy way to change the output voltage on the Conext system, it just takes the $600 Conext Configuration Tool. Luckily tech support at Schneider was nice enough to loan me one. Once it arrived I quickly had the voltage to the right level. All without voiding my warranty
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Wow, what is the range?"we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
Dave Angelini said:Wow, what is the range?
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Was there a service note? Did this actually change the output voltage? The reason I ask is 235V is pretty close to what they normally come out as? Are you sure you are not just changing the range of acceptable limits for high and low line? That is a common adjustment. The voltage does move around with load, heatsink temp, and ambient. It is a dynamic setting.
I have had the config tool since 2006 and never noted this, it does not surprise me though. Do you have combox?"we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
Dave Angelini said:Was there a service note? Did this actually change the output voltage? The reason I ask is 235V is pretty close to what they normally come out as? Are you sure you are not just changing the range of acceptable limits for high and low line? That is a common adjustment. The voltage does move around with load, heatsink temp, and ambient. It is a dynamic setting.
I have had the config tool since 2006 and never noted this, it does not surprise me though. Do you have combox?
I do not know if there was a service note, I got my info directly from tech support. The setting is briefly described in the manual for the config tool (don't have the page number right off hand) https://41j5tc3akbrn3uezx5av0jj1bgm-wpengine.netdna-ssl.com/wp-content/uploads/2016/12/conext-configuration-tool-ai-owners-guide-975-0721-01-01-rev-c.pdf
It did actually change the voltage, it is absolutely not just changing the high/low limits.
I do have a Combox but according to tech support changing the output voltage is one of the settings that can't be changed on a Combox. You have to use the configuration tool.
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OK sounds like for real to me. Good info! The combox is why I doubted you as it is not in there. Probably a good thing also.
The history on the configtool was to keep non informed users out of shutting down an offgrid inverter. Since there was very little reason to change firmware for Offgrid applications it makes sense that there are settings that Schneider keeps closed or does not have documentation for the outside.
Usually AC voltage sags are from the DC side sagging BTW. You ok there?"we go where power lines don't" Sierra Nevada mountain area
htps://offgridsolar1.com/
E-mail offgridsolar@sti.net -
DC doesn't seem to be sagging. I don't think the sagging is on the output of the inverter I think it is wire loss in the house which unfortunately I can't fix because all the wiring is in the spray foam in the walls.
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