Honda genset ramping up in eco mode - issue?

It is sort of the "draw back" of gensets that support "ECO Mode" throttle. But they are more fuel efficient, and usually quieter than the "standard" fixed RPM gensts.

I have a couple of Honda eu2000i (older version) and the "lag" in the engine RPM to run up the RPM to support higher output power can cause the "flicker problem" or possibly reboot a computer / TV set / etc. If I have a higher base load on the genset (fan, lighting, air/water pumps for fish pond, etc.), then the starting load from a refrigerator does drop the AC voltage as much.

Yamaha used to make a genset with "Boost"--As I recall it had a battery that was "in parallel" with the genset output and would reduce the voltage drop when in ECO Mode... But, from what I can find, it looks like Yamaha no longer makes that model.

So, we are now looking at a UPS (Uninterruptible Power Supply). Basically, plug the UPS into the Genset AC output, and your "sensitive loads" (TV, computer, etc.) into the UPS 120 VAC output.

For examples of UPS systems (not recommending the website--Just a place to start your search):

https://www.pcguide.com/psu/guide/best-uninterruptible-power-supplies/

Costco UPS example:

https://www.costco.com/cyberpower-1350va810watts-simulated-sine-wave-ups-battery-backup-with-surge-protection.product.100845557.html

A UPS takes the 120 VAC input, charges a smallish (typically 12 volt for smaller UPS's) battery pack, then the inverter takes the 12 volt (or whatever) battery voltage and converts it to 120 VAC...

The UPS will supply (reasonably) stable 120 VAC to your "sensitive loads" when the Genset AC voltage sags during refrigerator starts....

Unfortunately, the "UPS" is a "complicated" subject. There are continuous conversation (as I described above AC=>Battery=>AC inverter ), or those that switch over when the AC mains fail... The continuous conversation is "most stable" but less efficient AC power usage than the fail over type... Some have AC voltage regulation (I.e., can take 100 VAC-140 VAC and convert to 120 VAC stable voltage with a transformer)...

Some are pure sine wave, others are modified square wave (no idea what "simulated sine wave" is).... PSW/TSW (pure/true sine wave) is ideal... MSW is less idea).

Depending on what your sensitive loads are, at $130-$200--Cheap enough to give it a try(?).

Batteries typically last 1-2 years in UPS systems. And usually are pretty happy with "glitchy" Genset outputs. Most small computer UPS systems have a small battery bank and may carry rated load for a few minutes to 10-20 minutes (small UPS systems are intended to run a computer just long enough to save your work and safely shutdown the computer).

If you are interested more in Generators, Sine Wave, Modified Square Wave, and such, a very good web site for Movie/Grip genset 101:

https://www.screenlightandgrip.com/html/emailnewsletter_generators.html

This is a "quick and dirty" solution...

A question about your existing solar power system... Are you powering 120 VAC from Genset (when Genset is running) and from solar system's AC inverter when not?... Could you power your (at least your sensitive) loads from the AC inverter, and the other loads (fridge, water pump, etc.) from the Genset?

The inverter-charger may not be doing a "good job" of stabilizing the EU2200i output voltage (inverter-chargers may not "switch to battery mode" as fast as a UPS will (which should switch in 8 milliseconds or 1/2 of an AC sine wave cycle).

An option would be to purchase a second AC inverter only and power it from your solar battery bank to power LED lightning, TV, etc....

Our host has lots of inverters:

https://www.solar-electric.com/search/?q=inverter (sort from low to high costs to find "small" inverters)

Depending on your loads -- I would seriously consider a small (few hundred Watts) AC inverter running from your solar battery bank... Would certainly "solve" your blinking LED house lights, rebooting a TV, etc. May be cost effective compared with a "true" UPS, better inverter hardware (pure sine wave, "hours" of AC output from your large solar battery bank, and you don't have the "extra equipment" (UPS+UPS battery replacement every 3-5 years and only "minutes" of backup power).

You can get an AC inverter with "standby" function (inverter "sleeps" until >8 Watt AC load is turned), remote AC on/off switch, etc... Example of small AC inverter with this functions:r

https://www.solar-electric.com/morningstar-suresine-si-150-12-120-60-b-inverter.html
https://www.morningstarcorp.com/wp-content/uploads/operation-manual-suresine-en.pdf

There are lots of ways of "addressing" the issue--Just need to understand your "sensitive AC loads sizing/wattages" and such.

Lots of small inverter options this days (used to be a few hundred Watt AC inverter was 12 volt and not many had sleep/remote switch options)... Now small inverters are also available in the 24 and 48 VDC battery bus units too.

-Bill

Check with the Li Ion battery manufacturer regarding temperature ranges.... Typically charging is above freezing, and discharging can work OK below freezing. For example a random chart for LiFePO4 battery discharging:

https://appbattery.com/wp-content/uploads/2018/01/Discharge-curve-in-different-temperature.png

Up there in great white north--You should be able to find battery heating pads. Lead Acid batteries can self heat during use and your plan to discharge for a few hours may warm them up a bit... And people have said that cycling FLA batteries have kept them warm in an insulated battery box.

LiFePO4 batteries are much more efficient, and self heating probably will not be "good enough" to keep them warm. Heat from a warm room, battery heater+insulated box are probably a better match.

If you use an insulated box in a "cold space"... Make sure the "top of the box" is well insulated... If not, the heat will rise and cool the battery down quickly.

I would still like to suggest a separate small AC inverter for your "sensitive" loads.

A UPS typically uses a FLA (or other such as AGM/GEL/etc.) battery... And this will have the "cold soak" issues too. If battery is discharged and gets cold, then FLA batteries can crack the cases. AGM are supposed to be able to withstand cold+low SoC conditions better than FLA. In any case, you are adding "complexity" (charger/battery/inverter/etc.) to your system. Keeping things simple with your existing system, and adding separate small inverter/larger battery bank if needed/or even replace your inverter-charger with separate AC charger and AC inverter and make your own continuous conversion UPS.

FLA and other lead acid batteries do better in cold (can charge/discharge when sub freezing)--But lead acid still are less efficient and don't work as well at higher temperatures vs Lithium Ion. And Lead Acid have less cycle life vs Lithium Ion...

Smaller UPS will probably not run your larger devices (heat pump, etc.)... So need a larger unit, larger battery bank, etc...

-Bill