- #HELLOIFY SMART LED BULB GENERATOR#
- #HELLOIFY SMART LED BULB VERIFICATION#
- #HELLOIFY SMART LED BULB BLUETOOTH#
- #HELLOIFY SMART LED BULB PLUS#
the light flashes quickly(0.5s/time) and then start lo connect network process.ī. EZ Mode(Delaull): on-off-on-off-on [manual 2 Seconds not too shod), after waiting 3-5 seconds. ( If you use “Auto Scan”, you need to allow the APP to use Wi-Fi and Bluetooth).Ī. There are two ways of adding devices, which are “Add Manually” and “Auto Scan”.
#HELLOIFY SMART LED BULB BLUETOOTH#
Step 2:Make sure your phone is connected to 2.4GHz WiFi in your home, and turn on the mobile phone Bluetooth before adding the bulb.Ĭlick “Add Devices” or “ +” in the top right corner to enter add device page and select “Lighting” from the device type. I Agree with the Service Agreement and Privacy policy Enter the password, and tap “Done” to finish your registration.
#HELLOIFY SMART LED BULB VERIFICATION#
Enter the verification code in the message/e-mail.Enter the cellphone number/e-mail and tap “Get Verification Code” You can also select your country code by yourself. The system automatically determines your country/area.Nida has added a new project titled Charger Power Board.Nida has updated details to Charger Power Board.minigun-jones liked X printer - portable.Nate Rivard has updated the log for SPI Master.
#HELLOIFY SMART LED BULB GENERATOR#
#HELLOIFY SMART LED BULB PLUS#
There are clips holding on the diffuser which he assures us are going to break no matter what you do, plus some silicone adhesive. You’ll probably want to put this bulb back into service after reprogramming, so advises caution when cracking open the shell. All in all, he said it was far easier than he expected.
Running “Hello World” on a smart bulb is fun and all, but what about kicking on those LEDs? found a library that works with the MY9231 drivers, and it didn’t take long to figure out which of the ESP’s pins were used to communicate with them. With a ESP-01 programmer wired up to the board and the appropriate board settings (which he provides), you can use the Arduino IDE to upload whatever you like to it. Whoever put the board together was nice enough to label the RX, TX, and GPIO test points, though notes that what’s labeled as 3.3 V appears dead. The bulb’s PCB features the aforementioned ESP8266, a 1MB 25Q80 flash chip, and MY9231 LED drivers. He wanted to see how hard it would be to get his own code running on the bulb, and by the looks of it, it took longer to get the thing open then it did to load it up with a custom firmware. Upon cracking one open, he found that these relatively low-cost bulbs are little more than a standard ESP8266 chip and a couple of LED drivers. But what might not be quite so obvious is that it isn’t just us hacker types that are in love with the inexpensive IoT microcontroller, it’s also popping up more and more frequently in commercial products.Īs demonstrates, one of those ESP-powered devices is the LOHAS Smart LED Bulb. The regular Hackaday reader no longer needs to be reminded about how popular the ESP8266 is they see the evidence of that several times a day.
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