optoelectronics
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LED
https://www.youtube.com/watch?v=a2IY89FAjZE
https://www.richis-lab.de/Opto03.htm
https://www.richis-lab.de/Opto06.htm
https://www.eevblog.com/forum/projects/optoelectronics-die-pictures/
Open questions:
- Why do red LEDs look so different than green / blue?
- DONE, see below
- Size comparison in various modules?
- WIP below
- Wire bonding unusual? Doesn't look like ball or bond
- Its standard ball bonding, except the ball is on the controller. Wedge was terminated on the LED instead of the package
- What is the hexfet like pattern?
| Vendor | Product | Output | Die area (k um2, m mm2)) | Notes |
|---|---|---|---|---|
| btf-ws2812b | Green | 39.4 | btf-ws2812b | |
| btf-ws2812b | Red | 19.6 | btf-ws2812b | |
| btf-ws2812b | Blue | 33.6 | btf-ws2812b | |
| lampwin-led-12v | Red | 28.0 | lampwin-led-12v | |
| apa102c | Blue | 36.8 | apa102c |
“Red is usually some kind of GaAs and so a vertical structure. Green and blue are GaN and so more lateral. Ok, not really lateral but the substrate is not conducting…”
FastLED (and other) LEDs to consider:
| LED | Coverage/ Pages | Interface | Notes |
|---|---|---|---|
| APA102-2020 | Link | ||
| APA102C | Link | DOTSTAR | |
| APA104 | |||
| APA106 | |||
| GS1903 | |||
| GE8822 | |||
| GW6205 | |||
| LPD1886 | |||
| LPD6803 | |||
| LPD8806 | |||
| PL9823 | |||
| P9813 | |||
| SK6812B | Link | ||
| SK6822 | |||
| SK9822 | |||
| SM16703 | |||
| SM16716 | |||
| TM1803 | |||
| TM1804 | |||
| TM1809 | |||
| TM1812 | |||
| TM1829 | |||
| UCS1903 | |||
| UCS1903B | |||
| UCS1904 | |||
| UCS2903 | |||
| WS2801 | |||
| WS2803 | |||
| WS2811 | |||
| WS2812 | |||
| WS2812B | Link | ||
| WS2813 | |||
| WS2852 |
Red LED
Imaging
Notes:
- Coverslip (with oil, not water) made images much better for packaged LEDs with rough surface (see apa102-2020)
- Infrared produced better images than optical for milky fill (see apa102c)
optoelectronics.1715455163.txt.gz · Last modified: 2024/05/11 19:19 by mcmaster