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roomauto:deckenlichter.md [2017-01-15 09:30] xro |
roomauto:deckenlichter.md [2017-02-15 14:19] (current) xro |
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| * switching ceiling light power on/off is probably not as quick or nice-to-look-at as having planned [ESP8266 based H801](https://www.aliexpress.com/item/RGBWW-Strip-WiFi-Controller-1-Port-Control-200-Lights-Communicate-with-Android-Phone-Via-WLAN-to/32502007408.html) do it | * switching ceiling light power on/off is probably not as quick or nice-to-look-at as having planned [ESP8266 based H801](https://www.aliexpress.com/item/RGBWW-Strip-WiFi-Controller-1-Port-Control-200-Lights-Communicate-with-Android-Phone-Via-WLAN-to/32502007408.html) do it | ||
| - | Project CeilingLight on Steroids | + | Project FancyLights |
| -------------------------------- | -------------------------------- | ||
| Line 70: | Line 70: | ||
| 1. (done) verify H801 can be flashed with Sming firmware | 1. (done) verify H801 can be flashed with Sming firmware | ||
| - | 1. connect 2.5m RGB-CW and 3m WW LEDs to H801 and test with default firmware | + | 1. (skipped) connect 2.5m RGB-CW and 3m WW LEDs to H801 and test with default firmware |
| 2. (done) Measure power consumption of LED-Driver | 2. (done) Measure power consumption of LED-Driver | ||
| * power consumption in soft-off (H801 stays powered): ~0.36W | * power consumption in soft-off (H801 stays powered): ~0.36W | ||
| Line 80: | Line 80: | ||
| * 10m RGB, max duty: 59.8W | * 10m RGB, max duty: 59.8W | ||
| * 10m RGB+CW, max duty, 5m each on a 74W Powersupply: 66.6W (Netzteile am Anschlag) | * 10m RGB+CW, max duty, 5m each on a 74W Powersupply: 66.6W (Netzteile am Anschlag) | ||
| - | * 10m WarmWhite,Strip2, max duty, 5m each on a74W Powersupply: 61.4W (Netzteile am Anschlag) | + | * 10m WarmWhite, max duty, 5m each on a74W Powersupply: 61.4W (Netzteile am Anschlag) |
| * 10m RGB+CW+WW, Strip1+2,max duty, 5m each on a 74W Powersupply: 124W (Netzteile am Anschlag) | * 10m RGB+CW+WW, Strip1+2,max duty, 5m each on a 74W Powersupply: 124W (Netzteile am Anschlag) | ||
| - | * 5m RGB on Powersupply1 (74W) + 5m CW+WW on Powersupply2 (74W): 74W | + | * 5m RGB on Powersupply1 + 5m CW on Powersupply2: 74W |
| + | * 5m RGB on Powersupply1 (74W) + 5m CW+WW on Powersupply2 (74W): 44.4W | ||
| * 5m RG+WW on Powersupply1 (74W) + 5m B+CW on Powersupply2 (74W): 76W | * 5m RG+WW on Powersupply1 (74W) + 5m B+CW on Powersupply2 (74W): 76W | ||
| - | 2. test WIFI reception of H801 in ceiling light without installing it permanently. Test various possibly installation locations to improve WIFI reception. e.g. put H801 outside light-metal-casing and under gypsum-ceiling plates or outside light-metal-casing and visible next to light. | + | * --> RGB+CW Strip1 pro Meter: max(44.4/5,66.6/10)=max(8.88,6.66) = 8.88W/m |
| + | * --> WW Strip2 pro Meter: 61.4W/10 = 6.1W/m | ||
| + | * RGB+CW Strip1 60LED/m laut Verkäufer: 11.52W/m | ||
| + | * WW Strip2 60LED/m laut Verkäufer: 14.4w/m | ||
| + | 2. (done)test WIFI reception of H801 in ceiling light without installing it permanently. Test various possibly installation locations to improve WIFI reception. e.g. put H801 outside light-metal-casing and under gypsum-ceiling plates or outside light-metal-casing and visible next to light. | ||
| + | * tested in Leinwand/Mitgliederregal Ceiling Light, which is known to have worst WiFi reception from years ago TP-link Test. | ||
| + | Works Flawlessly :) | ||
| 3. (done) reflash and write new trusted firmware for H801, so that it can be controlled via MQTT and remembers a default light-setting | 3. (done) reflash and write new trusted firmware for H801, so that it can be controlled via MQTT and remembers a default light-setting | ||
| * see [HackADay-Artikle](http://hackaday.com/2015/08/25/esp8266-in-commercial-products/) | * see [HackADay-Artikle](http://hackaday.com/2015/08/25/esp8266-in-commercial-products/) | ||
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| * (done) on power-on default-light setting is used | * (done) on power-on default-light setting is used | ||
| * (done) MQTT commands | * (done) MQTT commands | ||
| - | * action/ceilinglightN/light {r:int, g:int, b:int, cw:int, ww:int} | + | * action/ceilingN/light {"r":int, "g":int, "b":int, "cw":int, "ww":int} | N={1..6,All}, int={0..1000} |
| - | * action/ceilinglightN/defaultlight {r:int, g:int, b:int, cw:int, ww:int} | + | * optional: "flash":True or "flash":{"repetitions":x, "cc":[topic2, topic3, ...]} |
| + | * optional: "fade":True or "fade":{"duration":ms, "cc":[topic2, topic3, ...]} | ||
| + | * specifiyng cc will forward the json message to the next topic in the list after the effect has finished or was interrupted | ||
| + | * action/ceilingN/defaultlight {"r":int, "g":int, "b":int, "cw":int, "ww":int} | N={1..6,All}, int={0..1000} | ||
| * (done) provide backup interface. e.g. telnet | * (done) provide backup interface. e.g. telnet | ||
| - | * secure backup telnet interface | + | * (done) backup telnet interface |
| - | 4. test in dry state | + | 4. (done) test in dry state |
| * startup behaviour: PWM pins start in INPUT direction, all channels except R- light up for 700ms \\ --> prefer solution where H801 soft-disables the LEDs and itself stays powered versus being powered on/off constantly | * startup behaviour: PWM pins start in INPUT direction, all channels except R- light up for 700ms \\ --> prefer solution where H801 soft-disables the LEDs and itself stays powered versus being powered on/off constantly | ||
| * startup behaviour: configured default light state apply's really fast after about y1.4s (not after blinking due to INPUT direction though) | * startup behaviour: configured default light state apply's really fast after about y1.4s (not after blinking due to INPUT direction though) | ||
| Line 107: | Line 117: | ||
| * Telnet configuration works really well | * Telnet configuration works really well | ||
| * spiffs flash-time pre-configuration works really well | * spiffs flash-time pre-configuration works really well | ||
| - | 4. test in ceiling light enclosure | + | 4.(done) test in indirect ceiling illumination configuration |
| - | 5. change golightctrl so it can control H801 | + | * Strip1 (RGB+CW) width: 12mm |
| - | 6. install in ceiling lights | + | * Strip2 (WW) width: 9.5mm |
| - | 7. put LEDs currently in ceiling lights into MaSha ceiling light, mixing CW and WW. | + | * all in all not bright enough for that and not diffuse enough |
| + | 4. (done) test in ceiling light enclosure | ||
| + | * WIFI works really well, surprisingly no problem | ||
| + | 4. (done) Testinstall one in ceiling light | ||
| + | * installed in middle-membeshelp light. Splice power from Lasercutter CeilingLight | ||
| + | * 3m Warm White (6 individul strips) | ||
| + | * 2.5m RGB+Coldwhite (6 individual strips) | ||
| + | * Things learned | ||
| + | * prefer splice WarmWhite from VCC, not from V+ where it passes the PCB | ||
| + | * Red and Green is switched on RGB+CW Strip | ||
| + | * vor-Auflegen funktioniert nicht gut -> aufzeichnen | ||
| + | * use 12mm 5pin clip-connectors for 12mm wide 5pin RGBW Led strip (not 10mm) -> ordered 12mm | ||
| + | * some connector cables are too short -> need to be extended --> ordered longer ones | ||
| + | * use extra double sided tape at ends | ||
| + | * cut closer to 55cm than 60cm, keep away from edges light wise | ||
| + | * keep switching power supplies away from WiFi H801 | ||
| + | * WarmWhite Strip needs to split. Looses brightness after 1.5m -> T-Connectors ordered | ||
| + | * arrange power supply in corner of edges, where they don't cast shadow if possible | ||
| + | * arrange H801 in center when possible | ||
| + | 5. (almost done) change golightctrl so it can control H801 | ||
| + | 6. (1/6 done) install in ceiling lights | ||
| + | 7. put CW-LEDs currently in one ceiling lights into MaSha | ||
| + | WW-LEDs in all Ceiling lights as Simple-Light | ||
| + | RGB+CW+WW-Fancy-Lights int all Ceiling lights | ||
| + | 8. modify 20W RGB+WW Flodding Lights with H801 and indirectly illuminate ceiling | ||
| - | Project Switches as Robust Fallback | + | Project BasicLights |
| ----------------------------------- | ----------------------------------- | ||
| - | **Plan:** connect Relay directly to Teensy µC | + | **Plan:** separate lights which work really really reliably |
| - | **Working on it:** [xro](doku.php?id=xro:xro) | + | **Working on it:** [equinox](doku.php?id=equinox:equinox) |
| - | **Status**: Concept | + | **Status**: WIP |
| **TODO** | **TODO** | ||
| - | 1. change teensy firmware to switch LOW for light-on | + | 1. (1/6 done) install Tanbaby LED Lights in Ceiling Lights |
| - | 2. ensure H801 firmware acts transparent. Power on -> Light, Power off -> no light | + | 2. (presumably done) write firmware for Teensy2.0 |
| - | 3. always cut power if physical switches are used | + | 3. (almost done) create enclosure with Teensy2.0 and buttons |
| - | 4. change golightctrl to | + | 4. install and connect power |
| - | * send soft-off to H801 if web-buttons are sued | + | 5. interface with RasperryPi in a way that |
| - | * cut power via relay if physical buttons are used | + | * Raspberry can switch lights |
| - | * cut power if presence=false | + | * Teensy2.0 does not depend on Raspberry power |
| - | 5. connect Relay directly to Teensy µC | + | * Raspberry and Teensy2.0 can be disconnected from each other / from power in case of error on each |
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