MPPT solar controller and LiFePO4 battery for backpacking

Interesting topic. My e bike lifepo4 just went 62.6 miles at 5,000k miles 2.5 year old battery. Maybe I shouldn't have just bought a gell cell for my cabin. Anyway I just joined and am trying to post. Where did they hide the post button? How do u post a new topic?

The charge current going to zero amps is due to the *battery* doing the current regulating at CV, not the bioenno! This is what is called the CV "absorb" stage. LFP or lead-acid, the basics are the same. What you got over the phone may have been over-simplified so that the guy can get back to work. Both Genasun and Bienno power could easily go bankrupt unless they hired a full time staff to explain the nitty gritty of it all for all the diy callers.

For example, what you described above is what a Battery-Tender designed for lead acid agm absorb (14.6-14.7v) will do! The point here is that it is NOT the battery-tender doing the current regulating once it reaches the absorb 14.6v stage.

That's fine. It also has under-voltage discharge and over-current protection. Great. Those are things we do ourselves outside our batteries, with no proprietary circuitry. Your choice.

Be on the lookout however, for cheap bms systems that are essentially baby-sitting poor quality cells to begin with! Instead of using quality cells, crap cells are used and a cheap ass bms is there to make sales of these poor quality cells. I'm not saying Bienno is doing that, but there is a lot of disreputable junk out there, so be careful. A deal too good to be true is the big red flag.

Also understand that there are many configurations of batteries - mine for 12v are merely a 4S configuration - 4 cells in series. Pretty easy to keep balanced once the initial balance is done. If a battery consists of a bunch of 18650 LFP batteries, the more they put in to increase the capacity - things can start to go nutty especially if those cells are not reputable without some safeguarding circuitry.

Ok, it's a start and you know your own limitations. Fantastic!

Ah, once the Genasun is connected to an actual battery, it will properly regulate the voltage with it's own circuitry now that it sees a load. When the Bienno says the battery is full, and disconnects, this is now an abnormal setup for a controller to have no battery attached, and we're back to just seeing the ocv of the panel.

If I think about it, without a battery, (either physically missing, or the Bienno cutting it off) the Genasun may be interpreting the open circuit voltage of the panel as the battery voltage itself - and of course at 18v, IS over voltage from a fictional missing battery standpoint!

I think this is the big trip up in understanding. You are questioning a logic-trap kind of situation, so that is very good actually.

Remember that from this distance, there IS the chance that your Genasun unit, may have been defective and returned to sales. Did you get yours directly from an authorized Genasun dealer, or was it some 3rd party online sales deal?

Sorry, I have have been away.

Here is my take on what is probably happening when you charge your battery using the Genasun taking into account the subsequent commentary.

The Genasun will supply as much power to the battery as the solar panel will supply if the voltage is less than 14.2 volts. When the battery voltage gets to 14.2 volts the Genasun starts to limit the current to keep the voltage at 14.2 volts as it should. Because this is an LFP battery with virtually no leakage the current will drop to virtually zero if the voltage is kept at 14.2 volts. The Genasun is incapable of keeping the voltage regulated at 14.2 volts with no current so the output voltage from the Genasun starts to rise. At some point, probably just above 14.6 volts, we don't know exactly what voltage because of the poor battery documentation the battery BMS disconnects the battery from the battery terminals. The BMS reconnects the battery to the battery terminals when it detects that the input voltage at the terminals has gone down below its safety cutoff voltage.

I am using the word probably because I don't have all the facts needed to make a definite statement.

The documentation that I can find from both Genasun and Bioenno is woefully inadequate.

If the Genasun charger does indeed let the output voltage drift up to the solar panel output voltage if there is no load connected to it there should be a big warning in capital letters in the user manual about if. If i was being polite I would call this a unique design feature. If you tried to connect the Genasun up to an LFP battery without a BMS it could quite easily damage it. This is a good case for buying a battery with a BMS installed.

The Bioenno documentation should tell you what voltage the BMS disconnects the battery from the battery terminals, and should tell you the maximum safe voltage that you can supply to the battery terminals.

While we are on the subject of documentation, Powerfilm should at least tell you what the Vmp (voltage for maximum power) is, and what the power loss temperature coefficient is. Would be nice to have some graphs of power output versus temperature and panel voltage as well.

IMO it is not your fault that has lead to the problems you are experiencing, but problems with the equipment, documentation and customer support. This is familiar story, the manufacturers and others try make it seem like it is your fault when it isn't.

SImon

Simon, PNjunction, Sunking and others,

Bioenno confirmed that when the battery voltage gets to 14.6V during CV charging, the BMS disconnects the battery. I sure wish they had told me this in September...

Bioenno Power confirmed that during CV, when the battery's voltage reaches 14.6V, the BMS disconnects the battery. Not sure why it took so long to get this information. Simon, yes, this should all be clearly documented. To be fair, even if everything was documented, the info would probably have gone over my head--I don't think it would have helped me make a pre-sales decision. So, at very least, when I called with problems, both customer service departments should have had the applicable info at their fingertips and shared it with me.

For comparison, can anyone recommend an MPPT controller and self-balancing LFP battery pack that are highly compatible with one another, lightweight, as weather resistant as possible and as hassle free as possible for a non-engineer? Around 5 Ah would be great. The bar is set high in terms of weight and weather resistance--the Bioenno battery weighs about 1 lb., and the GV-5 is marine grade and weighs just 2.8 oz. The system needs to be reliable in a long-term, off-grid application.

Hate to tell you this; told you so. That is the only way the Genasun controller can go high voltage. Two ways to work around this, well three ways. My way is get a different battery without HVC and LVD. Your Genasun controller has a built in Load Port with LVD of 5 amps, USE IT as it was intended.

Anyway keeping the battery you already have:

1. Lower the Genasun output voltage from 14.2 down to 13.8 to 14.0 volts. That will prevent the battery going to 100% and activation the HVC circuit.
2. Keep a load device connected to the battery load port.

Also do not be fooled by terms. Even the cheapest of cheap chargers are CC/CV. It is not something the BMS does. There is no special circuitry that switches the charger from Constant Current to Constant Voltage. It is just the physical interaction between the battery open circuit voltage, battery internal resistance, the chargers current limit, and the chargers set point voltage. When the battery charges up, it voltage rises to meet the charger set point. When the battery voltage rises to the charger set point voltage current tapers off and voltage stays constant via Ohm' Law of voltage and resistance. Read this it might help.

I think you made the right decision with choosing the Bioenno battery. From what I can see the Bioenno battery just needs a power supply that will provide 14.6 volts (14.2 volts is adequate).

Contrary to what Sunking has been saying you do not need to worry about compatibility between the Bionno battery and an MPPT controller as the BMS can disconnect the battery from the controller if any problem that might damage the battery arises. The compatibility issues only occur if the battery does not have the internal circuitry to disconnect itself from the outside world. In this case the BMS has to be able to communicate with the controller to tell it to stop charging or connect to external circuitry that can disconnect the battery if a problem arises.
If you can't find an MPPT controller to match the GV-5 specs without the annoying problem that the GV-5 has there are ways of getting round the problem.

With your weight requirements, am I right in thinking you are a long distance bushwalker? Have you heard of the Bibbulmun track?

Simon

It just means the battery is incompatible with any Solar Controller. No controllers out there are made to work without a battery connected. Most controllers would be damaged with the battery disconnected with panels connected in sun light. Just a fact and you can squak all you want about it.

Genasun is the only controller made for a Lithium battery and has a LVD built-in, but is not intended to have the battery disconnected, just the load. Will it hurt a Gnasun Controller having the battery disconnected? Answer is NO. But his battery will never reconnect when the controller output goes to 18 volts with an Open Circuit.

No you didn't just make a simple mistake and click on the wrong converter, you then went on to describe what the circuit does when you turn the FET off. This means that you did not know by looking at that circuit that it was not a Buck Converter. A first year electronics student would know that. You failed the test.

Pulse width modulation goes from 0% to 100%, 0% is turned off, 100% is turned on all the time. A first year electronics student would know that. You failed the test.

I understand your point. Whether or not the battery will reconnect is unknown. But I don't think the 18V OCV has any causal effect on the disconnect--I think it's purely a result of the disconnect. After the initial disconnect, the battery would reconnect briefly 4 times. Maybe the battery voltage was slipping briefly below 14.6V? Would the BMS be sophisticated enough to test if a load has been connected? Would the presence of a load affect whether or not the battery disconnects?

What kind of load would you recommend connecting to the battery terminals? What kinds of complications would that introduce?

What battery would you recommend?

How the hell do you know this is the case, have you disassembled the Bioenno battery in question or have access to the circuit diagram of the battery?

I doubt very much you will find any relays in the battery. The BMS is more likely two FETs back to back being controlled by a circuit that detects if the cell voltages are too high or low. See this article for more informationhttp://electronics.stackexchange.com...rces-connected

Don't you ever learn from your mistakes, remember this?

and the reply,

By the way, wb9k is the head of the warranty labs at A123systems.

You are correct. I can't say for sure because I don't have enough facts about the battery but I would think that when all the individual cell voltages dropped below 3.65 volts (overall battery voltage 14.6V) the BMS would reconnect the battery to the connector. The Genasun would then charge the battery a little more until the BMS detected an overvoltage and disconnected the battery again, and so on and so on.

By disconnecting the Genasun controller from the battery the voltage at the connector will drop down to below the cutoff voltage and the BMS will reconnect the battery to the connector. Placing a suitable load on the Genasun controller will make sure that it keeps the voltage regulated.

I wouldn't connect the load to the battery terminals but to the load terminals on the Genasun controller as it is this that is causing the problems. All it would need would be a small 1/4watt or 1watt resistor. The value of this would be dependent on how much load the Genasun needs to keep its voltage regulated. I would try a 1/4 watt 10kOhm first. If this didn't work try a 1kOhm 1/4 watt and if this doesn't work try a 330Ohm 1 watt resistor.

Simon

Would this kind of circuit allow a BMS, when wired to a controller, to block incoming charge current while allowing outgoing current to flow to a load? Or, in a case like mine, is it likely that the disconnect at full charge is like an open a switch, in which case this circuit, if employed, controls the direction of current flow only when the switch is closed?

Current can only flow in one direction at a time, it doesn't go into the battery and out of it at the same time. If you have a load connected to the battery at the same time as it is being charged the current will go directly from the controller to the load, bypassing the battery. If the load draws more current that the controller will provide the load will take current from both the controller and the battery.

In theory you could operate the switch circuit so it would only switch current in one direction at a time but due to it not working well like this you probably wouldn't do it. You would either have is switched on to allow current flow in both directions or switched off so no current can pass.

Simon

I beg to differ, maybe I am wrong and the basic operation of commercial MPPT controllers is radically different from what I designed, which I doubt but I would call the main power circuitry of an MPPT controller a Buck Switch Mode Power Supply with the primary feedback control loop being controlled by the output voltage, and a secondary control loop being to maximise the power obtained from the solar panels. They do not necessarily need a load to operate but as jflorey2 has already said the control electronics usually get their power from the load (in this case the battery) with the exception of the Genasun GV-5 which seems to get its power from the solar cell.

But who am I to make such a statement, I am the idiot who doesn't know what i am doing or saying, even though I have designed and built my own MPPT controller over five years ago which is still working just fine.

For those that are interested here is the circuit diagram of the power electronics of my MPPT controller, look familiar?
SolarControllerPower.pdf

There are a few different scenarios when disconnecting the battery from my controller when the output from the solar panels is at its maximum

1. Battery not full and controller providing maximum amps to battery 2. Battery full and controller providing little or no current