See also horvathgergo/esp8266-for-uppatvind which is a project to replace the board in the UPPÅTVIND with a custom board powered by an ESP866.
This is a modification of the Ikea UPPÅTVIND air purifier into a "smart" purifier, specifically by using ESP8266 or ESP32 wifi microcontroller with ESPHome so that the air purifier can be remotely controlled by Home Assistant.
The goal is to be able to remotely:
- View UPPÅTVIND fan speed
- Change the UPPÅTVIND fan speed
This can be done using an ESP8266 or ESP32 to:
- Sense the LED brightness, which matches the fans speed (off, low, medium, high)
- Press the button to change the fan speed
The case is held together with triangle head screws:
A T8 Torx bit fits in these screws. A 3 to 3.2mm flat head slot screwdriver also works.
On some revisions, after removing the 5 triangle screws, the face is still held on by clips along the edge. I jammed a flat head screwdriver into the gaps and broke each of the inside clips along the edges.
The board is powered from by 24V DC from the 2-pin connector.
The 24V is stepped down to 5V (U2 and surrounding components make a switched-mode power supply)
There is 8-pin microcontroller (U1) that reads the inputs from the 2 buttons, controls the 2 LEDs, enables the fan power, and generates the PWM to set the fan speed.
The microcontroller runs off of 5V
I used a Wemos D1 ESP8266 board since I had a one on hand. Any ESP8266 or ESP32 would work provided it can run off of 5V power, e.g. the board has a voltage regular.
UPPÅTVIND | Wemos D1 | Notes |
---|---|---|
TP2 | GND | |
TP3 | 5V | |
TP4 | D5 | TP4 is between the button switch at S1 and the UPPÅTVIND |
TP7 | D6 | TP7 is between anode (positive) side of LED1 the UPPÅTVIND |
The main button the UPPÅTVIND is active-low switch. It's schematic is like:
S1
_|_
U1--R1--TP4--o o--GND
The 8-pin MCU U1 is set up as an pulled-up input pin. When the S1 is pressed it grounds the pins.
For the Wemos D1 to trigger the input, a Wemos output pin is connected to exposed cooper at TP4. The Wemos can then momentary set it's output pin to low similar to physically pressing the button at S1.
S1
_|_
U1--R1--TP4--o o--GND
|
|
Wemos
The main LED (LED1) of the UPPÅTVIND has 4 states, off, and low, medium, and high brightnesses. The PWM is used to control the brightness.
The LED has similar wiring but instead of the Wemos using an output ping, the it'll uses an input pin connected to TP7. The Wemos can then measure the pulse width to sense the LED brightness.
U1--TP7--LED1--GND
|
|
Wemos
Example ESPHome YAML configuration file
esphome:
name: uppatvind
esp8266:
board: d1
sensor:
- platform: pulse_width
pin: D6
id: led1
name: UPPÅTVIND Fan Speed LED
update_interval: 0.25s
accuracy_decimals: 0
unit_of_measurement: ""
icon: mdi:led-outline
filters:
# The values after multiplied by 1000000 are 0, 20, 100, 320
# and correspond to LED being off, low, med, high intensity.
# The "pulse_width" sensor sometimes reads non-0 (e.g 221) when
# the LED is off which is why 0 (off state) is returned in the
# default case.
- multiply: 1000000
- lambda: !lambda |-
switch (int(x)) {
case 20:
return 1;
case 100:
return 2;
case 320:
return 3;
default:
return 0;
}
- max:
window_size: 3
send_every: 3
send_first_at: 1
- or:
- delta: 0.5
- throttle: 60s
output:
- platform: gpio
pin:
number: D5
inverted: true
# "Open drain" used so the Wemos does't pull the pin
# up or down when it's not being pressed.
mode: OUTPUT_OPEN_DRAIN
id: output1
button:
- platform: output
name: "UPPÅTVIND Button"
output: output1
duration: 100ms
There is a red LED on the UPPÅTVIND for the filter change indicator. This LED seems to briefly turns on when the UPPÅTVIND powers up, and I assume it'll turn on when the filter needs to be changed. I haven't had the UPPÅTVIND long enough for the LED to turn on. It's probably based on total runtime time since Ikea suggests changing filter 6 months.
This LED (which is at LED2/TP6) could also be wired up to the ESP8266/ESP32 so its state can be sent to Home Assistant to trigger a notification.