Hey Leute,
mache zwar inzwischen viel mit HomeAssistant aber jetzt komme ich nicht so weiter
Habe einen Victron Mppt 75/15 und einen D1 Mini und versuche dies in HA zu integrieren
der D1 Mini ist schon geflasht und auch schon online aber sendet keine Daten
Das hier ist die Datei die ich drauf gespielt habe
Wenn ich den D1 Mini besuche ist er online und zeigts rechts im Log immer folgendes an
Habe den die 2 Adern auf D7 und G angeschloßen und der D1 mini wird über usb netzteil versorgt
mache zwar inzwischen viel mit HomeAssistant aber jetzt komme ich nicht so weiter
Habe einen Victron Mppt 75/15 und einen D1 Mini und versuche dies in HA zu integrieren
der D1 Mini ist schon geflasht und auch schon online aber sendet keine Daten
Das hier ist die Datei die ich drauf gespielt habe
YAML:
substitutions:
external_components_source: github://KinDR007/VictronMPPT-ESPHOME@main
lower_devicename: "victron"
devicename: "SmartSolar_75_15"
config_version: "v2024.06.21"
wifi_fast_connect: "false"
accuracy: "2"
esphome:
name: "${lower_devicename}"
min_version: 2024.6.0
esp8266:
board: d1_mini
external_components:
- source: ${external_components_source}
refresh: 0s
wifi:
ssid: !secret wifi_ssid
password: !secret wifi_password
power_save_mode: none
fast_connect: $wifi_fast_connect
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "${devicename} Hotspot"
password: !secret wifi_password
captive_portal:
ota:
platform: esphome
logger:
baud_rate: 0
# level: VERY_VERBOSE
esp8266_store_log_strings_in_flash: false
# If you use Home Assistant please remove this `mqtt` section and uncomment the `api` component!
# The native API has many advantages over MQTT: https://esphome.io/components/api.html#advantages-over-mqtt
# api:
web_server:
port: 80
time:
- platform: sntp
uart:
id: uart_bus
tx_pin: D8 # Not connected! The communication is read-only
rx_pin: D7 # Connect this this GPIO and GND to the MPPT charger
baud_rate: 19200
stop_bits: 1
data_bits: 8
parity: NONE
rx_buffer_size: 256
victron:
id: victron0
uart_id: uart_bus
throttle: 10s
sensor:
- platform: victron
victron_id: victron0
panel_voltage:
name: "Panel voltage"
id: pv
battery_voltage:
name: "Battery voltage"
id: bv
battery_current:
name: "Battery current"
id: bc
load_current:
name: "Load current"
id: load_current
max_power_yesterday:
name: "Max power yesterday"
id: max_power_yesterday
max_power_today:
name: "Max power today"
id: max_power_today
accuracy_decimals: ${accuracy}
yield_total:
name: "Yield total"
id: yield_total
filters:
# Multiplication factor from W to kW is 0.001
- multiply: 0.001
unit_of_measurement: kWh
accuracy_decimals: ${accuracy}
yield_yesterday:
name: "Yield yesterday"
id: yield_yesterday
filters:
# Multiplication factor from W to kW is 0.001
- multiply: 0.001
unit_of_measurement: kWh
accuracy_decimals: ${accuracy}
yield_today:
name: "Yield today"
id: yt
filters:
# Multiplication factor from W to kW is 0.001
- multiply: 0.001
unit_of_measurement: kWh
accuracy_decimals: ${accuracy}
panel_power:
name: "Panel power"
id: panel_power
day_number:
name: "Day sequence number"
id: day_number
icon: "mdi:calendar-today"
charging_mode_id:
name: "Charger mode id"
error_code:
name: "Error code"
tracking_mode_id:
name: "Tracker mode id"
- platform: wifi_signal
name: "${devicename} WiFi Signal Sensor"
id: rssi_sensor
update_interval: 15s
- platform: template
name: "Wifi Quality"
unit_of_measurement: "%"
accuracy_decimals: 0
icon: "mdi:wifi"
update_interval: 15s
lambda: |-
int quality;
const int rssi = id(rssi_sensor).state;
if (rssi <= -100) {
quality = 0;
} else if (rssi >= -50) {
quality = 100;
} else {
quality = 2 * (rssi + 100);
}
return quality;
- platform: uptime
name: "${devicename} Uptime"
id: uptime_s
update_interval: 5s
- platform: template # for 1 cell of battery
name: "Bat S1 " # 7S pack
lambda: |-
if ((((id(bv).state) / 7) > 4.22) && (((id(bv).state) / 7) < 3.2)) {
return NAN;
}
return ((id(bv).state) / 7);
update_interval: 10s
icon: "mdi:battery"
unit_of_measurement: V
device_class: "voltage"
accuracy_decimals: ${accuracy}
- platform: template # Battery working percent
name: "Bat working percent" # cycle batt between 3,7v - 4.17v
lambda: |-
if (((((((((id(bv).state) / 7 )) - 3.700) / (4.170 - 3.700)) * 100)) >= 115) && ((((((((id(bv).state) / 7 )) - 3.700) / (4.170 - 3.700)) * 100)) <= -25)) {
return NAN;
}
return ((((((id(bv).state) / 7 )) - 3.700) / (4.170 - 3.700) ) * 100);
update_interval: 15s
icon: "mdi:battery"
unit_of_measurement: "%"
device_class: "voltage"
accuracy_decimals: ${accuracy}
- platform: template # FVE percent
name: "FVE percent" # 500Wp max power of my FVE grid
lambda: |-
if (((((id(panel_power).state) / 500) * 100) >= 120) && ((((id(panel_power).state) / 500) * 100) < 0)) {
return NAN;
}
return (((id(panel_power).state) / 500) * 100);
icon: "mdi:gauge"
unit_of_measurement: "%"
device_class: "power"
accuracy_decimals: ${accuracy}
update_interval: 15s
- platform: template # median generated day energy
name: "Day median generated " # 500Wp max power of my FVE grid
lambda: |-
return (id(yield_total).state) / (id(day_number).state);
update_interval: 15s
icon: "mdi:gauge"
unit_of_measurement: "kWh"
device_class: "power"
accuracy_decimals: 3
text_sensor:
- platform: victron
victron_id: victron0
charging_mode:
name: "Charging Mode"
error:
name: "Error"
tracking_mode:
name: "Tracking Mode"
firmware_version:
name: "Firmware Version"
device_type:
name: "Device Type"
- platform: template
name: "${devicename} Config Version"
icon: mdi:information-outline
lambda: |-
return {"${config_version}"};
- platform: version
name: "${devicename} Esphome Version"
icon: mdi:information-outline
- platform: wifi_info
ip_address:
name: "${devicename} IP Address"
icon: mdi:ip
ssid:
name: "${devicename} Connected SSID"
icon: mdi:wifi
bssid:
name: "${devicename} Connected BSSID"
mac_address:
name: "${devicename} Mac Wifi Address"
- platform: template
name: "${devicename} Uptime (formatted)"
lambda: |-
uint32_t dur = id(uptime_s).state;
int dys = 0;
int hrs = 0;
int mnts = 0;
if (dur > 86399) {
dys = trunc(dur / 86400);
dur = dur - (dys * 86400);
}
if (dur > 3599) {
hrs = trunc(dur / 3600);
dur = dur - (hrs * 3600);
}
if (dur > 59) {
mnts = trunc(dur / 60);
dur = dur - (mnts * 60);
}
char buffer[17];
sprintf(buffer, "%ud %02uh %02um %02us", dys, hrs, mnts, dur);
return {buffer};
icon: mdi:clock-start
update_interval: 5s
switch:
- platform: restart
icon: mdi:reload-alert
name: "${devicename} Restart"Wenn ich den D1 Mini besuche ist er online und zeigts rechts im Log immer folgendes an
Habe den die 2 Adern auf D7 und G angeschloßen und der D1 mini wird über usb netzteil versorgt
| 19:27:28 | [D] | [sensor:104] | 'SmartSolar_75_15 Uptime': Sending state 660.93402 s with 0 decimals of accuracy |
| 19:27:28 | [D] | [sensor:104] | 'FVE percent': Sending state nan % with 2 decimals of accuracy |
| 19:27:28 | [W] | [victron:093] | Last transmission too long ago |
| 19:27:28 | [D] | [sensor:104] | 'Bat working percent': Sending state nan % with 2 decimals of accuracy |
| 19:27:29 | [W] | [victron:093] | Last transmission too long ago |
| 19:27:30 | [D] | [text_sensor:069] | 'SmartSolar_75_15 Uptime (formatted)': Sending state '0d 00h 11m 00s' |
| 19:27:30 | [D] | [sensor:104] | 'Bat S1 ': Sending state nan V with 2 decimals of accuracy |
| 19:27:30 | [D] | [sensor:104] | 'Wifi Quality': Sending state 74.00000 % with 0 decimals of accuracy |
| 19:27:33 | [D] | [sensor:104] | 'SmartSolar_75_15 Uptime': Sending state 665.93701 s with 0 decimals of accuracy |
| 19:27:33 | [W] | [victron:093] | Last transmission too long ago |
| 19:27:34 | [W] | [victron:093] | Last transmission too long ago |
Zuletzt bearbeitet:
