Practical rules of thumb for long-run LED strip installs?
I’m working on a few LED strip installs where the runs are long enough that the “usual beginner advice” (just pick a PSU and stick the strip up) stops working.
Typical scenarios:
24V constant-voltage strips for indirect/cove lighting, ~5–20m per run
Sometimes addressable strips (SPI-style) where data integrity becomes a factor
Indoor installs in aluminum channels / diffusers (so heat and wiring neatness matter)
I’d love to collect practical rules of thumb from people who’ve done this at scale. In particular:
Power injection
What’s your “inject every X meters” heuristic for 12V vs 24V?
Do you prefer single-end + injections, or powering both ends (and why)?
Any go-to wire gauge guidance for common power levels (say 50–200W per run)?
Fusing & safety
Do you fuse each injection branch? Inline blade fuses? Something else?
Any wiring patterns you’ve found safer/cleaner for hidden runs?
Addressable / data integrity
When do you stop trusting a single data line and switch to differential / RS-485 style transport?
Do you routinely add a series resistor on data, and if so what values actually help in the field?
Any best practices for grounding when the strip and controller are far apart?
Heat & longevity
For strips in channels with diffusers: any “keep it under X W/m” guidance to avoid long-term yellowing / adhesive failure?
If you have favorite references (calculators, wiring diagrams, field-tested guidelines), I’d appreciate links. I’m not looking to sell anything—just trying to avoid the common failure modes (dim tail, flicker, random glitches) and build a repeatable checklist. This is like 4 questions in one post - 24V constant voltage strips, addressable LEDs with controllers next to them, remote controllers for addressable LEDs, diffuser channels. Each one is different. And for most of the time, you don't want "rules of thumb", you want basic EE knowledge: You know the voltage drop you can afford and the max power of your lights. And you should also know the internal resistance of the lights (or you can measure it if you don't know). This gives you the power injection rules. For things like "resistor values" and "signal integrity", you need to know specific cable setup you have to match impedance. Or get a scope and try different values yourself - you don't need anything fancy, cheap $150 scopes work just fine. Or just put your controller next to first light, most lights regenerate signals, so only distance to first light matters, not overall strip. Your "repeatable checklist" must have specific models of lights and cables and connectors to be useful. Voltage drop is going to be your biggest issue. Here’s what ChatGPT says:
https://pastebin.com/59FKaKPx