This project is heavily based on the work of two other people:
- All encryption/decryption structures copied from https://github.com/QuadCorei8085/elero_protocol (MIT)
- All remote handling based on code from https://github.com/stanleypa/eleropy (GPLv3)
Ultimately, this component should allow you to control Elero blinds with the bidirectional protocol directly from Home Assistant using an ESP32 with a CC1101 module attached. Apart from SPI (MISO, MOSI, SCK, CS) only GDO0 is required (in contrast to the other projects, GDO1 is not needed - it's not available on my module so I configured the CC1101 a bit differently).
The current code can transmit and simulate the TempoTel 2 that I have. Since some values are different to the two projects mentioned above, I'm not sure which/if this has an impact. For this reason, various aspects of the protocol can be configured on a per-cover basis (see the respective section).
Please be advised that this is very early development make, features might not work as intended!
If you like my work, consider sponsoring this project via Github Sponsors or by acquiring one of my Amazon Wishlist items.
See the provided example file for the minimum configuration required to configure a blind. Some optional parameters can also be set that allow the tuning of your system:
external_components:
- source: github://andyboeh/esphome-elero
spi:
clk_pin: GPIO18
mosi_pin: GPIO23
miso_pin: GPIO19
elero:
cs_pin: GPIO5
gdo0_pin: GPIO26
freq0: 0x7a
freq1: 0x71
freq2: 0x21
cover:
- platform: elero
blind_address: 0xa831e5
channel: 4
remote_address: 0xf0d008
name: Schlafzimmer
open_duration: 25s
close_duration: 22s
poll_interval: 5min
supports_tilt: False
payload_1: 0x00
payload_2: 0x04
pck_inf1: 0x6a
pck_inf2: 0x00
hop: 0x0a
command_check: 0x00
command_stop: 0x10
command_up: 0x20
command_down: 0x40
command_tilt: 0x24
clk_pin
: The CLOCK pin for SPI communicationmosi_pin
: The MOSI pin for SPI communicationmiso_pin
: The MISO pin for SPI communication
cs_pin
: The CS pin for SPI communicationgdo0_pin
: The GDO0 pin for SPI communicationfreq0
: Tune the frequency value set in the FREQ0 register if different from0x7a
(Optional)freq1
: Tune the frequency value set in the FREQ1 register if different from0x71
(Optional)freq2
: Tune the frequency value set in the FREQ2 register if different from0x21
(Optional)
blind_address
: The address of the blind you would like to controlchannel
: The channel of the blind you would like to controlremote_address
: The address of the remote to simulatename
: The name of the coveropen_duration
: For position control, stop the time it takes to open the cover (Optional)close_duration
: For position control, stop the time it takes to close the cover (Optional)poll_interval
: Configure the polling interval for status updates if different from5min
(Optional)supports_tilt
: If the cover supports tilt, set toTrue
(Optional)payload_1
: Configure the first payload byte if different from0x00
(Optional)payload_2
: Configure the second payload byte if different from0x04
(Optional)pck_inf1
: Configure the first packet info byte if different from0x6a
(Optional)pck_inf2
: Configure the second packet info byte if different from0x00
(Optional)hop
: Configure the Hop byte if different from0x0a
(Optional)command_check
: Configure the command sent for getting the blind status if different from0x00
(Optional)command_stop
: Configure the command sent for stopping the blind if different from0x10
(Optional)command_up
: Configure the command sent for opening the blind if different from0x20
(Optional)command_down
: Configure the command sent for closing the blind if different from0x40
(Optional)command_tilt
: Configure the command sent for tilting the blind if different from0x24
(Optional)
You need to have an existing remote control configure and connected to to your blind. This component only supports faking an existing blind, it is not possible to learn it as a new remote. In order to accomplish this, start out with an empty configuration and add a fake cover (otherwise, you get a compile error). Then, enable logging and listen to your blind communication. Do the following:
- Select a blind. On a TempoTel 2, this triggers reading the blind state. You should see a message like the following in your log. If there are multiple lines, look for the line where
src
,bwd
andfwd
all have the same values.
len=29, cnt=45, typ=0x6a, typ2=0x00, hop=0a, syst=01, chl=09, src=0x908bef, bwd=0x908bef, fwd=0x908bef, #dst=01, dst=e039c9, rssi=-84.0, lqi=47, crc= 1, payload=[0x00 0x04 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00]
- Look at the lines. You now know:
-
pck_inf1
=0x6a
-pck_inf2
=0x00
-hop
=0x0a
-channel
=9
-remote_address
=0x908bef
-blind_address
=e039c9
-payload_1
=0x00
-payload_2
=0x04
-command_check
=0x00
- Press the UP, DOWN and STOP buttons consecutively and check the log again. The very last byte of the payload doesn't matter, the fifth byte is the command to send. An exemplary UP command (
0x20
) looks like this:
len=29, cnt=46, typ=0x6a, typ2=0x00, hop=0a, syst=01, chl=09, src=0x908bef, bwd=0x908bef, fwd=0x908bef, #dst=01, dst=e039c9, rssi=-84.0, lqi=47, crc= 1, payload=[0x00 0x04 0x00 0x00 0x20 0x00 0x00 0x00 0x00 0x40]
You are looking for packets with len=29
. Those with len=27
are something else (don't know what).
- Add all required information to the configuration file and check. Your blinds should start moving.
This implementation does not support intermediate positions. However, by estimating the time the cover is travelling, the cover can be stopped in any desired position. This feature is experimental and it might be off.
Any tilt value > 0 will send out the tilt command. At the moment, setting tilt to 0 will not send out any command as I do not have any blinds supporting tilt.
- No log output when pressing buttons: Check that the wiring is correct. If that's fine, your frequency might have an offset. I had to set my module to the values
0xc0
,0x71
and0x21
whereas the default is0x7a
,0x71
and0x21
. - Blind control doesn't work: Carefully check all values and compare with the real remote. Apart from the
cnt
value, all values need to match!
This project was tested on two different configurations:
- D1 Mini ESP32 + 433MHz CC1101 module. Bad range and limited reception, but generally working.
- WT32-ETH01 + 868MHz CC1101 module from a canibalized RWE Smart Home central. Very good range and excellent reception.