The problem can not be caused by too many devices connected to the inverter at once.

With everything else the same, the inverter WORKS when the cooktop is on HIGH power mode (1800W) but DOES NOT WORK when the cooktop is on LOW power mode (900W).

 

I am no expert in these things. Could it be a chopped sine wave to reduce power that is somehow interfering.

Another thought. What is the gauge of the wire between battery & inverter, & what is the total distance (both + & - )

Wiring could be under size & it doesn't take much to have substantial drop in resources.

The microwave oven is called an 800W but actually draws about 1250W on full power according to my ePRO plus battery monitor.

It's more likely to be appliances than inverter or cabling and I think Peter_n_margaret are on the right track. Check just how your appliances operate, most lower power settings on cheaper appliances are achieved by applying full power but only part of the time. Your inverter probably isn't coping with the surge/peak its being asked to meet. You haven't mentioned the Microwave at different power settings unless i missed it, so give that a crack before you decide it's just the induction cooker. Without knowing your appliance and inverter specs, it's hard to know where the issue lies.

In general 240V AC power to a load is controlled in one of two ways:
Burst fire control
or
Phase control

Burst fire control works by turning the sine waveform to the load on
and off for a given number of cycles eg. for 50% power it is on for
five cycles and off for five cycles; for 80% power it is on for eight
cycles and off for two cycles and so on.

Phase control delays the switch on point of each half cycle as each
half cycle lasts for 10mS the longer the turn on point is delayed the
less power is received by the load.

My guess at what is happening is that the electronics in your
inverter do not like the control technique used by your cooktop, this
explains why it works at full power (no control is being used) but
not at reduced power. Incidentally with phase control a 50% setting
causes the most problems as the load is being rapidly switched on
when the the sine wave is at its peak of 340V and a *big* dollop of
current is suddenly demanded.

My guess is this is a design defect in your inverter but it is
possible it's an issue caused by your installation. To test that I
suggest you temporarily connect a fully charged battery (25Ah or
larger) *very* close to the inverter terminals and use heavy wire to
connect it to the inverter, leave your main batteries connected as
normal. If that cures the problem you will need to improve your
installation if it doesn't you'll need to buy a new inverter :(

Hi Kgarnett

I have just checked my induction cooktops and they are the same as yours (900W, 1500W, 2000W). When I have been testing the inverter I have always used the same temperature setting of 190 degrees. I will test the unit on HIGH power (2000W) at various temperatures to see if the inverter works at these different power levels. Then I will check it at LOW power (900W) at various temperature settings to see what happens.