Invertor loss
I did some quick reading and reserach and determine that most companies advertise the maximum peak effecency. That is describe as the best you will be able to expect, but it does't tell you the conditions and the reading has not be forth coming to the details of how they arrived at these figures.Agreed under the conditions that manufactures test and rate and under the ideal or peak circumstances the loss figure is the maximum effecincy rather than the average. Example: 10 load tests and 1 hits a 90% conversion rate from 12-110 volts. What is the overall effeciancy? From the max number it is impossible to tell what to expect for all other 9 tests in this example. But the advertising of the max effecincy is 90% which the test supported.I beleive in the real world maunfacture literature is suspect as to the overall effecincies(couldn't find any average effecincy quotes). When sizing an inverter you are better off calcuating at an average rate so as not to undersize the inverter and battery bank sizing.This doesn't even get into the battery bank and the recharge after use. It isn't magic but it does take some reserach so as not to waste your money or to be comfortable with the day to day results.This is an excerpt from the linked Don Casey article."Before you consider operating any AC appliance from an inverter, you should do the math. Let’s take a 700-watt microwave oven, for example. The PF of microwave ovens is typically around 0.6, so a 700-watt oven will draw around 10 amps (700÷ [120 x 0.6]). If your inverter does not deliver true sine wave power, an appliance inefficiency of around 30 percent comes into play, making the microwave draw around 13 amps (10 x 130 percent). Applying the times-10 rule, your battery bank has to deliver 130 amps at 12 volts, plus another 15 percent to operate the inverter. That makes the load on your battery around 150 amps while the microwave is running."This is a sailnet Don Casey link that does a good job of expalining the realities of power conversion. Very interesting especially when sizing a system.