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Author SHA1 Message Date
b0aa7991f9 Added geigercounter and display it on epaperframe. 2022-11-05 23:47:51 +01:00
ee17ed1e3a Updated HA. 2022-11-05 23:47:10 +01:00
3 changed files with 99 additions and 14 deletions

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@ -1 +1 @@
2022.11.0
2022.11.1

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@ -175,6 +175,10 @@ sensor:
- platform: homeassistant
entity_id: sensor.schlafzimmer_heimkino_power
id: media_sleepingroom
- platform: homeassistant
entity_id: sensor.radioaktive_strahlungsleistung
id: radiation
text_sensor:
- platform: homeassistant
@ -312,7 +316,8 @@ font:
'󰴾', # mdi-transmission-tower
'󰚥', # mdi-power-plug
'󱈹', # mdi-desk
'󰔂' # mdi-television
'󰔂', # mdi-television
'󰐼' # mdi-radiation
]
- file: 'fonts/materialdesignicons-webfont.ttf'
@ -390,6 +395,7 @@ display:
float outdoor_temp = id(temp_outdoor).state;
int outdoor_humid = int(id(humid_outdoor).state);
float air_pressure = id(airpressure).state;
float outdoor_radiation = id(radiation).state;
float livingroom_temp = id(temp_livingroom).state;
int livingroom_humid = int(id(humid_livingroom).state);
int livingroom_pm25 = int(id(pm25_livingroom).state);
@ -413,31 +419,41 @@ display:
/* C1024 logo */
it.image(10 , 37, id(c1024_logo));
it.print(10, 115, id(mdi_small), TextAlign::BASELINE_LEFT, "󰊚"); // air pressure icon
it.print(375, 75, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer icon
it.print(375, 115, id(mdi_small), TextAlign::BASELINE_CENTER, "󰖎"); // water percent icon
it.print(10, 120, id(mdi_small), TextAlign::BASELINE_LEFT, "󰊚"); // air pressure icon
it.print(375, 80, id(mdi_small), TextAlign::BASELINE_CENTER, "󰔏"); // thermometer icon
it.print(375, 120, id(mdi_small), TextAlign::BASELINE_CENTER, "󰖎"); // water percent icon
it.print(95, 80, id(mdi_small), TextAlign::BASELINE_LEFT, "󰐼"); // radioactive icon
if(outdoor_temp > -100 && outdoor_temp < 100) {
it.printf(357, 75, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1fºC", outdoor_temp);
if(outdoor_radiation > 0 && outdoor_radiation < 100) {
it.printf(200, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.2f", outdoor_radiation);
it.print(205, 80, id(sensor_unit), TextAlign::BASELINE_LEFT, "µS/h");
}
else {
it.print(357, 75, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC");
it.print(200, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ");
it.print(205, 80, id(sensor_unit), TextAlign::BASELINE_LEFT, "µS/h");
}
if(outdoor_temp > -100 && outdoor_temp < 100) {
it.printf(357, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%2.1fºC", outdoor_temp);
}
else {
it.print(357, 80, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - ºC");
}
if(outdoor_humid >=0 && outdoor_humid <= 100) {
it.printf(357, 115, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%3d%%", outdoor_humid);
it.printf(357, 120, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, "%3d%%", outdoor_humid);
}
else {
it.print(357, 115, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - %");
it.print(357, 120, id(sub_sensor_font), TextAlign::BASELINE_RIGHT, " - %");
}
if(air_pressure < 1200 && air_pressure >=800) {
it.printf(220, 114 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%4.1f", air_pressure);
it.print(225, 114 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa");
it.printf(220, 120, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "%4.1f", air_pressure);
it.print(225, 120, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa");
}
else {
it.print(220, 114 + offsetY, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- ");
it.print(225, 114 + offsetY, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa");
it.print(220, 120, id(big_sensor_font), TextAlign::BASELINE_RIGHT, "- ");
it.print(225, 120, id(sensor_unit), TextAlign::BASELINE_LEFT, "hPa");
}

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@ -0,0 +1,69 @@
esphome:
name: geigercounter
platform: ESP32
board: nodemcu-32s
wifi:
ssid: "Voltage-legacy"
password: !secret voltage_legacy_psk
use_address: geigercounter.home
power_save_mode: high
fast_connect: on
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "Geigercounter Fallback Hotspot"
password: !secret fallback_psk
captive_portal:
# Enable logging
logger:
# Enable Home Assistant API
api:
password: !secret api
encryption:
key: !secret apikey
ota:
password: !secret ota
spi:
clk_pin: 16
mosi_pin: 19
display:
- platform: max7219
cs_pin: 5
num_chips: 1
lambda: |-
it.print("01234567");
# Here we calc and include to the firmware a power and doze values of ionizing radiation as sensor outputs
sensor:
- platform: pulse_counter
pin: 23
unit_of_measurement: "µSv/h"
name: "Radioaktive Strahlungsleistung"
icon: "mdi:radioactive"
count_mode:
rising_edge: DISABLE
falling_edge: INCREMENT
update_interval: 60s
accuracy_decimals: 3
id: dose_meter
filters:
- sliding_window_moving_average: # 5-minutes moving average (MA5) here
window_size: 5
send_every: 1
- multiply: 0.0054 # SBM20 tube conversion factor of pulses into mkSv/Hour
- platform: integration
name: "Gesamte Strahlungsdosis"
unit_of_measurement: "µSv"
sensor: dose_meter # link entity id to the pulse_counter values above
icon: "mdi:radioactive"
accuracy_decimals: 5
time_unit: min # integrate values every next minute
filters:
- multiply: 0.00009 # obtained doze (from mkSv/hour into mkSv/minute) conversion factor: 0.0054 / 60 minutes = 0.00009; so pulses * 0.00009 = doze every next minute, mkSv.