> but it does dissipate all the excess energy as heat.
No. That's only true for a linear regulator, which is just one, very terrible, implementation of a current source that's only used for very low power applications. Linear regulators are never used for things like room illumination.
The alternative, and what's used for all commercially available DC LED drivers (plentiful and cheap), is to just use a regular AC->DC switching supply in current mode (current for feedback rather than voltage feedback). The only flicker is the ripple left in the filtered output.
Why aren't these used? Because most dimmer switches use tech from incandescent age, and just chop off parts of the AC sine wave, so the bulbs are designed around the switches you can buy in the store. Why do dimmer switches chop? Because that's what the bulbs you can buy at the store expect, sometimes damaging them if not dimmed as they expect.
You can buy in wall DC dimmer switches from any LED supply store, but they require DC lighting, also only found at LED supply stores. It's entirely a very recent momentum problem, that's slowly going away.
You're correct. You can't use a linear regulator for dimming. A current-mode switching DC/DC converter works, but needs sufficient filtering (or high enough switching frequency) to avoid the flicker issue.
Linear regulators are in fact used for room lighting, and efficiency can be reasonably good. Typical design is AC input -> bridge rectifier -> passive low-pass filter -> long string of LEDs with a single linear regulator in series. Voltage drop across the regulator is much lower than across the string of LEDs so there's not a whole lot of heat generated.
No. That's only true for a linear regulator, which is just one, very terrible, implementation of a current source that's only used for very low power applications. Linear regulators are never used for things like room illumination.
The alternative, and what's used for all commercially available DC LED drivers (plentiful and cheap), is to just use a regular AC->DC switching supply in current mode (current for feedback rather than voltage feedback). The only flicker is the ripple left in the filtered output.
Why aren't these used? Because most dimmer switches use tech from incandescent age, and just chop off parts of the AC sine wave, so the bulbs are designed around the switches you can buy in the store. Why do dimmer switches chop? Because that's what the bulbs you can buy at the store expect, sometimes damaging them if not dimmed as they expect.
You can buy in wall DC dimmer switches from any LED supply store, but they require DC lighting, also only found at LED supply stores. It's entirely a very recent momentum problem, that's slowly going away.