> Even if NiMH did not exist, not being able to operate with batteries below 1.2V wastes the majority of the capacity of an alkaline. I think that's a valid criticism of almost anything in consumer electronics. It requires a very good excuse before it should be considered acceptable.
Please unpack this a bit to make sure it's not a strawman.
1.2V is just a nominal voltage, just like 1.5V nominal. Fully-charged open-cell voltages are above 1.25V and 1.6V, IIRC, though that is, of course, irrelevant. What matters is voltage under load, at all possible loads for all consumer devices.
Even if nickel chemistries have flatter discharge curves, they still slope downward, and that voltage can drop below 1.2V.
Their voltage also doesn't bounce back when load is reduced. Engineers deal with real-world usage, not contrived benchmarks where a cell is taken from full charge to flat at constant current.
What consumers are actually saying is that real-world rechargables don't work in certain real-world devices, while alkalines do. They make no claims about specific voltages. That's on you, so it's up to you to show that a particular voltage cut-off is the problem and that the same device ends up using only half the alkaline's capacity. Otherwise, you put up a strawman to knock down.
Please unpack this a bit to make sure it's not a strawman.
1.2V is just a nominal voltage, just like 1.5V nominal. Fully-charged open-cell voltages are above 1.25V and 1.6V, IIRC, though that is, of course, irrelevant. What matters is voltage under load, at all possible loads for all consumer devices.
Even if nickel chemistries have flatter discharge curves, they still slope downward, and that voltage can drop below 1.2V.
Their voltage also doesn't bounce back when load is reduced. Engineers deal with real-world usage, not contrived benchmarks where a cell is taken from full charge to flat at constant current.
What consumers are actually saying is that real-world rechargables don't work in certain real-world devices, while alkalines do. They make no claims about specific voltages. That's on you, so it's up to you to show that a particular voltage cut-off is the problem and that the same device ends up using only half the alkaline's capacity. Otherwise, you put up a strawman to knock down.