Charge controller and battery meter questions

Re: Charge controller and battery meter questions

Bulk and Absorb should be set to the same voltage. Only difference is, while in absorb, the amps should lessen eventually, as the battery fills up, and the timer kicks out and drops you to float.

If you force an EQ (when was your last EQ) do the amps go up ? What's the water usage been like, little usage ? Lots of gassing ?


I question running 632W of PV (45A) into a Morningstar TS-45 PWM ??? Limits ? Running warm ? Any loads running while charging ?

And, then there is the heat, hot days reduces the voltage of the panels. You may be limited there. You could try the "Ice Bucket Challenge" and see what cold water on hot glass does and if your charge increases.

Re: Charge controller and battery meter questions

Plowman wrote: »

I've been having on-going issues with my two Trojan T-105 batteries not getting a full charge.
<snip>
but even when there's good sun all day I haven't been getting a full charge (usually maxs out around 95% based on SG of 1.265-1.270).

You have more than enough panel to charge those batteries. I question the premise of your complaint... I suspect that your batteries are getting fully charged.

The low current you see in the afternoon is probably the 'end amps' of the battery... that's the amount of current that flows into a battery when it is fully charged. Since the battery is fully charged, the energy that this current carries cannot go to charging the battery... it goes to heat, electrolysis of water, and corrosion. To avoid excessive heat, electrolysis of water, and corrosion, it is good to switch from absorb to float as soon as the battery is fully charged.

I think Cariboocoot's assessment is correct:

Cariboocoot wrote:

The problem is the TriStar is staying Absorb too long. This can be a problem with any controller that has a fixed Absorb setting. I can't remember exactly how they function, but it sounds like the Absorb extend time has been set?

I'm not familiar with your charge controller, but I think there may be some software that allows you to reduce the absorb time. I don't think you need a more efficient controller... you don't need to wring every last kwh out of your panels... you have plenty of solar panel for those batteries.

If you get a Trimetric monitor, it can be configured to reset to 100% using 'end amps' criteria. For example, you tell the trimetric that your batteries are fully charged when the voltage has been (for a full minute) at 14.8 volts with the battery current less than 3 amps. When 'end amps' is reached, the Trimetric knows your batteries are charged, but it can't tell that to, or control, your charge controller.

More advanced charge controllers (such as the Kid) can make the switch from absorb to float based on 'end amps' criteria. By the way, Bogart (maker of the Trimetric) has a new charge controller that works with their trimetric monitor. Like the midnite Kid, it is a 30 amp controller.

--vtMaps

Re: Charge controller and battery meter questions

Plowman wrote: »

Lately I've usually been seeing 1.265 by late afternoon, which is ~95%. <snip> Charge controller was putting out 0.88 amps @ 14.82V with the inverter turned off, according to my clamp meter. Obviously something not right.

Something may be wrong, but it's not obvious to me that something is wrong. Maybe 1.265 is as high as SG gets in your batteries, measured with your hydrometer. Or maybe not. If you adjust your Iota voltage and do a real EQ for an hour, you can find out high your SG can be.

One thing you can do that might shed light: discharge the battery to at least 80% SOC. Then recharge it, and while it is in absorb stage, make a graph of time vs charging current. The current should start out high and taper down to 'end amps'.

I don't have your batteries, so I'm not sure how low your end amps should be... 0.88 amps sounds a bit low, but not so low that I would automatically think something is wrong.

On the other hand, you might be right that the SG you are measuring is too low. If you are correct, it means that there is some sulfation. If there is some sulfation, that would raise the internal resistance of the battery and would result in end amps being lower than normal.

Bottom line: equalize, and then know for sure where you stand. If it turns out that your batteries are getting fully charged, then adjust your controller to spend less time in absorb. If they are not getting fully charged, we can troubleshoot... maybe it is the controller... but first you need to know for sure the SOC of your batteries.

SG is, of course, the gold standard for SOC. But you cannot read your hydrometer to a resolution high enough to differentiate between 99% SOC and 100% SOC. Consider this: If you are repeatedly charging up to 99.9% SOC, that 99.9% becomes your new 100%. After awhile, your battery is reduced to 99.9% of 99.9% of 99.9% etc. This is slow deficit charging and the SG slowly declines as more and more electrolyte is lost to sulfation.

If you do have sulfation and it has been longstanding, it is probably not reversible. 95% may be the new 100% for your batteries. Or maybe not. An EQ will bring your batteries to their fullest potential.. what ever that may be. If you reverse some sulfation (assuming there is sulfation and that it is reversible), you can expect to see a bit of an increase in your end amps.

--vtMaps

Re: Charge controller and battery meter questions

Plowman wrote: »

suggests to me the charge controller is not fully charging my batteries on a regular basis. Thoughts?

That may be a good thing. On not. Very controversial.

RE batteries are a niche market. Most deep cycle batteries are used in situations where they are charged from the grid (forklift, golfcart,etc).

Most battery manufacturers (including Trojan) recommend a charging protocol that has some regulation by current, and usually has daily charging voltages that briefly get as high as your EQ voltage (15.42 volts). These types of charging protocols are NOT the usual bulk, absorb, float that we use in the RE industry (and they may use the terms bulk, absorb, and float differently). The type of charging we do in the RE industry involves regulation by voltage.

One of the nice things about regulation by voltage is that all chargers and controllers can be on the same page... they all see the same battery voltage, so they know what's going on. That's why we can mix and match multiple inverter/chargers and controllers on the same battery bank.

When you do regulation by current, the charger or controller has to know how much current is going into the battery. In most industrial chargers, when it's time to charge the battery, the battery is connected to the charger. There are no loads or other charging sources, so the current produced by the charger is the current going into the battery. One other thing about regulation by current... the power source (grid or generator) must be reliable... the regulation by current protocols don't work too well when clouds pass by.

So now, back to your question... The controversy about battery charging involves how often to get all the way to 100% SOC. And I mean 100.000%, not 99.999%. (you can't read the difference on your hydrometer).

Realize that sustained high voltages are tough on a battery.... with industrial chargers the time spent at 15+ volts on a daily basis is minimal.

If you were to set your RE absorb voltage to 15+ volts, your battery would get to 100% daily, but it would spend a great deal more time at the higher voltages. Too much time for good battery life.

So what to do?

Trojan and many other battery manufacturers recommend "routine" equalization (as opposed to "corrective" equalization). In effect, they are recommending that you deficit charge on a daily basis (easier on the battery), but catch up to 100% every week on a routine basis.

Why every week? Every time you charge or discharge your battery, stratification builds up. That means more of the sulfuric acid is at the bottom of the cells and it takes higher than normal voltage to drive sulfate off the bottom of the plates (more work to push sulfate off plate into higher concentration of sulfuric acid). As you cycle your bank during the week, never quite getting to 100%, this stratification builds up and the sulfate at the bottom of the plates will harden (over time). A "routine" equalization will restore order.

Some manufacturers specify how often to do a routine EQ by the amount of cycling... that is one 50% cycle causes as much stratification as five 10% cycles or two 25% cycles. For most RE situations about 1 week is about right.

One more thing about battery charging... try to look at it from the battery manufacturer's perspective:
Here is something I wrote recently:

vtmaps wrote: »

Suppose a battery manufacturer produces battery cells that have the following characteristics:
99.5% of the cells will be fully charged with a voltage of 2.37 volts (14.2 volts in a 12 volt system).
99.95% of the cells will be fully charged with a voltage of 2.43 volts (14.6 in a 12 volt system).

If they recommend a charging voltage of 14.2, a half percent of their cells will fail during warranty, but that means almost 3% of their 12 volt batteries will fail (6 cells per battery). On the other hand, if they recommend charging at 14.6, only 0.3% of the 12 volt batteries will fail. If you buy that 12 volt battery, what charging voltage will you use? There is a 97% chance that if you use the lower voltage your battery will last longer.

You are lucky that you have flooded cells... you can use a hydrometer to tune your charging voltages and time to what works for your battery in your system in your environment. In all likelihood you can (if you have adjustable chargers and controllers) use less time and voltage than the manufacturer recommends and extend the life of your bank.

By the way, your Iota charger has some non-RE charging protocols... have you noticed that Iota specifies separate bulk and absorb voltages?

--vtMaps

Re: Charge controller and battery meter questions

Photowhit wrote: »

but Trojan and I think Deka? do NOT recommend routine equalizing. They want you to only equalize for correcting out of balance SG.

I thing this is why they also have a fairly high absorb voltage, just opinion on this...

OK, thanks... my mistake on Trojan --vtMaps

Re: Charge controller and battery meter questions

I'm assuming you are using the TS-45 as your solar charger ? And you are programming different absorb voltages via RS-232 port ? You should be able to increase the ABSORB TIME, say, in 20 minute steps, and see if longer absorb times pumps enough amps in the battery to charge it. That's the definition of Absorb, after Bulk get the voltage to X, Absorb holds it there for some amount of time, till the battery finishes filling up.

Re: Charge controller and battery meter questions

Plowman wrote: »

My new thinking on the subject, after this thread and thinking more on what folks have said in other threads, is that I don't need to achieve a full charge every day. Once a week is fine as long as SOC stays at a reasonable level (>75%). I can achieve a full charge once a week with manual equalization. Valid strategy?

Yes, a very valid strategy. Even if you could program your controller to get you to 100% every day, you might be better off with this "once a week" strategy.

--vtMaps

Re: Charge controller and battery meter questions

Cariboocoot wrote: »

You don't want to limit the controller output or else you will also limit the power available to the opportunity load (and thus wouldn't gain anything).

I would impose a 120 amp input to my 800Ah battery, 15% is limit manufacturer suggests for max battery life. It's not a huge opportunity load, 900 watts (may try to go to a 4400watt 240 element run on 120 for about 1100 watt load) I do hope to gain warm showers on over cast days...

I believe a single shunt at the battery connection is all that is needed to allow for extra generation from the array to cover loads, since the CC should see the amperage there and be able to make the adjustments to maintain the charge current. Do to the electro chemical nature of charging, I don't think brief over current of a couple seconds will create problems, though I've been wrong before, I think from my reading at Midnite this is their intent.

Re: Charge controller and battery meter questions

Cariboocoot wrote: »

The Outback FNDC has the potential to work around this (never programmed one so I don't know if it actually can) because it has three shunts and theoretically at least can tell the difference between current from the controller and current to the battery, thus it should be possible to limit the latter without affecting the former (power going to loads only).

Yes, Outback can do that, but also needs a Mate3.

This feature has been discussed a few times on the Midnite forum, and will be implemented in future firmware. The Midnite controllers will only need one shunt (with whizBang). They will regulate their output to cover loads above and beyond the maximum charging limit. Apparently the Classic knows how much power it is producing without an external shunt. The external shunt and whizbang allow the Classic to know the battery's current as well as its own current.

Also discussed has been the possibility of using the whizbang to allow some constant current protocols (for example, equalization with current limiting).

--vtMaps