PV-Überschussladen mit EVCC

auch bei mir hier seit ~3 Monaten ohne Probleme

2 kW ist für dreiphasiges Laden zu wenig Überschuss. Das sind 2,9A pro Phase, ich glaube das kann der Go E einfach nicht. und ob evcc da freischaltet weiß ich nicht.

Ja gut. Aber in dem Fall soll ja EVCC die Wallbox auf einphasiges Laden umstellen.

IMG_51701179×953 107 KB

Das hast du aber schon aktiviert, oder??

Ja. Genau so ist es eingestellt.
Glaube in der Config ist das der Punkt „phases: 0“

2kw ist einphasig, die phasenumschaltung muss also konfiguriert sein und man muss sponsor bei evcc sein.

Ohne / mit abgelaufenem Sponsortoken startet evcc nicht mal mit konfigurierter go-e…

Sponsor bin ich. Und wie gesagt, die Phasenumschaltung sollte mit „phases: 0“ ja aktiviert sein. Hatte bisher auch immer funktioniert.

Habe leider keine go-e und kann daher nicht wirklich weiterhelfen. Die go-e hast du ja sicherlich bereits mal komplett neu gestartet, oder?
In der Github Diskussion wird es ohne vernünftiges Logfile eher schwierig mit dem Support.

Ja, hatte ich schon mehrfach neu gestartet. Bekomme es absolut nicht mehr zum Laufen. Gerade nochmal EVCC komplett neu konfiguriert.
Hab hier jetzt auch mal ein Log File, das ich auch in GitHub gepostet habe. Um 13:32:37 stoppt das Laden plötzlich:

[site ] DEBUG 2023/07/29 13:30:28 ----
[lp-1 ] DEBUG 2023/07/29 13:30:28 charge power: 11431W
[site ] DEBUG 2023/07/29 13:30:30 pv power: 12488W
[site ] DEBUG 2023/07/29 13:30:34 battery soc: 100%
[site ] DEBUG 2023/07/29 13:30:34 battery power: -200W
[site ] DEBUG 2023/07/29 13:30:34 grid power: -888W
[site ] DEBUG 2023/07/29 13:30:38 grid currents: [-1.84 -2.64 -2.91]A
[site ] DEBUG 2023/07/29 13:30:39 site power: -988W
[lp-1 ] DEBUG 2023/07/29 13:30:40 charge currents: [16.2 16.2 16.2]A
[lp-1 ] DEBUG 2023/07/29 13:30:40 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:30:40 charge total import: 1025.386kWh
[lp-1 ] DEBUG 2023/07/29 13:30:40 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:30:40 soc estimated: 67.42% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:30:40 vehicle soc: 67%
[lp-1 ] DEBUG 2023/07/29 13:30:40 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:30:40 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:30:40 pv charge current: 17.4A = 16A + 1.43A (-988W @ 3p)
[site ] DEBUG 2023/07/29 13:30:40 ----
[lp-1 ] DEBUG 2023/07/29 13:30:40 charge power: 11461W
[site ] DEBUG 2023/07/29 13:30:42 pv power: 12939W
[site ] DEBUG 2023/07/29 13:30:45 battery soc: 100%
[site ] DEBUG 2023/07/29 13:30:45 battery power: -200W
[site ] DEBUG 2023/07/29 13:30:46 grid power: -2345W
[site ] DEBUG 2023/07/29 13:30:54 grid currents: [-3.2 -3.97 -4.64]A
[site ] DEBUG 2023/07/29 13:30:57 site power: -2445W
[lp-1 ] DEBUG 2023/07/29 13:30:57 charge currents: [16 16.1 16.2]A
[lp-1 ] DEBUG 2023/07/29 13:30:57 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:30:57 charge total import: 1025.441kWh
[lp-1 ] DEBUG 2023/07/29 13:30:57 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:30:57 soc estimated: 67.48% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:30:57 vehicle soc: 67%
[lp-1 ] DEBUG 2023/07/29 13:30:57 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:30:57 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:30:57 pv charge current: 19.5A = 16A + 3.54A (-2445W @ 3p)
[site ] DEBUG 2023/07/29 13:30:57 ----
[lp-1 ] DEBUG 2023/07/29 13:30:57 charge power: 11377W
[site ] DEBUG 2023/07/29 13:31:02 pv power: 12597W
[site ] DEBUG 2023/07/29 13:31:03 battery soc: 100%
[site ] DEBUG 2023/07/29 13:31:03 battery power: 2217W
[site ] DEBUG 2023/07/29 13:31:04 grid power: -164W
[site ] DEBUG 2023/07/29 13:31:07 grid currents: [1.92 -1.87 -1.95]A
[site ] DEBUG 2023/07/29 13:31:07 site power: 2153W
[lp-1 ] DEBUG 2023/07/29 13:31:07 charge currents: [16.2 16.2 16.2]A
[lp-1 ] DEBUG 2023/07/29 13:31:07 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:31:07 charge total import: 1025.472kWh
[lp-1 ] DEBUG 2023/07/29 13:31:07 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:31:07 soc estimated: 67.52% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:31:07 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:31:07 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:31:07 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:31:07 pv charge current: 12.9A = 16A + -3.12A (2153W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:31:07 max charge current: 12A
[site ] DEBUG 2023/07/29 13:31:07 ----
[lp-1 ] DEBUG 2023/07/29 13:31:07 charge power: 11441W
[site ] DEBUG 2023/07/29 13:31:12 pv power: 12125W
[site ] DEBUG 2023/07/29 13:31:13 battery soc: 100%
[site ] DEBUG 2023/07/29 13:31:13 battery power: -200W
[site ] DEBUG 2023/07/29 13:31:14 grid power: -2941W
[site ] DEBUG 2023/07/29 13:31:18 grid currents: [-3.75 -4.98 -5.47]A
[site ] DEBUG 2023/07/29 13:31:19 site power: -3041W
[lp-1 ] DEBUG 2023/07/29 13:31:19 charge currents: [12.1 12.2 12.1]A
[lp-1 ] DEBUG 2023/07/29 13:31:19 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:31:19 charge total import: 1025.503kWh
[lp-1 ] DEBUG 2023/07/29 13:31:19 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:31:19 soc estimated: 67.55% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:31:19 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:31:19 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:31:19 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:31:19 pv charge current: 16.4A = 12A + 4.41A (-3041W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:31:19 max charge current: 16A
[site ] DEBUG 2023/07/29 13:31:19 ----
[lp-1 ] DEBUG 2023/07/29 13:31:19 charge power: 8594W
[site ] DEBUG 2023/07/29 13:31:24 pv power: 12359W
[site ] DEBUG 2023/07/29 13:31:27 battery soc: 100%
[site ] DEBUG 2023/07/29 13:31:27 battery power: -200W
[site ] DEBUG 2023/07/29 13:31:28 grid power: -1230W
[site ] DEBUG 2023/07/29 13:31:31 grid currents: [-2.08 -3.22 -3.6]A
[site ] DEBUG 2023/07/29 13:31:32 site power: -1330W
[lp-1 ] DEBUG 2023/07/29 13:31:32 charge currents: [16.1 16.1 16.1]A
[lp-1 ] DEBUG 2023/07/29 13:31:32 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:31:32 charge total import: 1025.541kWh
[lp-1 ] DEBUG 2023/07/29 13:31:32 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:31:32 soc estimated: 67.60% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:31:32 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:31:32 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:31:32 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:31:32 pv charge current: 17.9A = 16A + 1.93A (-1330W @ 3p)
[site ] DEBUG 2023/07/29 13:31:32 ----
[lp-1 ] DEBUG 2023/07/29 13:31:32 charge power: 11356W
[site ] DEBUG 2023/07/29 13:31:33 pv power: 11899W
[site ] DEBUG 2023/07/29 13:31:37 battery soc: 100%
[site ] DEBUG 2023/07/29 13:31:37 battery power: -200W
[site ] DEBUG 2023/07/29 13:31:38 grid power: 196W
[site ] DEBUG 2023/07/29 13:31:41 grid currents: [2.53 1.67 -2.29]A
[site ] DEBUG 2023/07/29 13:31:42 site power: 96W
[lp-1 ] DEBUG 2023/07/29 13:31:42 charge currents: [16.1 16.1 16.1]A
[lp-1 ] DEBUG 2023/07/29 13:31:42 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:31:42 charge total import: 1025.570kWh
[lp-1 ] DEBUG 2023/07/29 13:31:42 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:31:42 soc estimated: 67.63% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:31:42 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:31:42 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:31:42 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:31:42 pv charge current: 15.9A = 16A + -0.139A (96W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:31:42 max charge current: 15A
[site ] DEBUG 2023/07/29 13:31:42 ----
[lp-1 ] DEBUG 2023/07/29 13:31:42 charge power: 11333W
[site ] DEBUG 2023/07/29 13:31:47 pv power: 12416W
[site ] DEBUG 2023/07/29 13:31:50 battery soc: 100%
[site ] DEBUG 2023/07/29 13:31:50 battery power: -201W
[site ] DEBUG 2023/07/29 13:31:51 grid power: -1253W
[site ] DEBUG 2023/07/29 13:31:54 grid currents: [-2.15 -2.61 -3.17]A
[site ] DEBUG 2023/07/29 13:31:55 site power: -1354W
[lp-1 ] DEBUG 2023/07/29 13:31:55 charge currents: [15.2 15.1 15.2]A
[lp-1 ] DEBUG 2023/07/29 13:31:55 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:31:55 charge total import: 1025.609kWh
[lp-1 ] DEBUG 2023/07/29 13:31:55 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:31:55 soc estimated: 67.67% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:31:55 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:31:55 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:31:55 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:31:55 pv charge current: 17A = 15A + 1.96A (-1354W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:31:55 max charge current: 16A
[site ] DEBUG 2023/07/29 13:31:55 ----
[lp-1 ] DEBUG 2023/07/29 13:31:55 charge power: 10669W
[site ] DEBUG 2023/07/29 13:32:04 pv power: 12926W
[site ] DEBUG 2023/07/29 13:32:08 battery soc: 100%
[site ] DEBUG 2023/07/29 13:32:08 battery power: 722W
[site ] DEBUG 2023/07/29 13:32:09 grid power: -1334W
[site ] DEBUG 2023/07/29 13:32:12 grid currents: [-2.43 -2.88 -3.44]A
[site ] DEBUG 2023/07/29 13:32:12 site power: -512W
[lp-1 ] DEBUG 2023/07/29 13:32:12 charge currents: [16.1 16.2 16.2]A
[lp-1 ] DEBUG 2023/07/29 13:32:12 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:32:12 charge total import: 1025.665kWh
[lp-1 ] DEBUG 2023/07/29 13:32:12 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:32:12 soc estimated: 67.73% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:32:12 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:32:12 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:32:12 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:32:12 pv charge current: 16.7A = 16A + 0.742A (-512W @ 3p)
[site ] DEBUG 2023/07/29 13:32:12 ----
[lp-1 ] DEBUG 2023/07/29 13:32:12 charge power: 11430W
[site ] DEBUG 2023/07/29 13:32:16 pv power: 13636W
[site ] DEBUG 2023/07/29 13:32:20 battery soc: 100%
[site ] DEBUG 2023/07/29 13:32:20 battery power: -200W
[site ] DEBUG 2023/07/29 13:32:21 grid power: -1858W
[site ] DEBUG 2023/07/29 13:32:23 grid currents: [-2.85 -3.86 -4.21]A
[site ] DEBUG 2023/07/29 13:32:24 site power: -1958W
[lp-1 ] DEBUG 2023/07/29 13:32:25 charge currents: [16.1 16.1 16.1]A
[lp-1 ] DEBUG 2023/07/29 13:32:25 detected active phases: 3p
[lp-1 ] DEBUG 2023/07/29 13:32:25 charge total import: 1025.704kWh
[lp-1 ] DEBUG 2023/07/29 13:32:25 charger status: C
[lp-1 ] DEBUG 2023/07/29 13:32:25 soc estimated: 67.77% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:32:25 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:32:25 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:32:25 vehicle range: 314km
[lp-1 ] DEBUG 2023/07/29 13:32:25 pv charge current: 18.8A = 16A + 2.84A (-1958W @ 3p)
[site ] DEBUG 2023/07/29 13:32:25 ----
[lp-1 ] DEBUG 2023/07/29 13:32:25 charge power: 11410W
[site ] DEBUG 2023/07/29 13:32:30 pv power: 14527W
[site ] DEBUG 2023/07/29 13:32:33 battery soc: 100%
[site ] DEBUG 2023/07/29 13:32:33 battery power: -200W
[site ] DEBUG 2023/07/29 13:32:34 grid power: -566W
[site ] DEBUG 2023/07/29 13:32:35 grid currents: [-1.81 -1.99 -16.8]A
[site ] DEBUG 2023/07/29 13:32:37 site power: -666W
[lp-1 ] DEBUG 2023/07/29 13:32:37 charge currents: [0 0 0]A
[lp-1 ] DEBUG 2023/07/29 13:32:37 charge total import: 1025.735kWh
[lp-1 ] DEBUG 2023/07/29 13:32:37 charger status: B
[lp-1 ] INFO 2023/07/29 13:32:37 stop charging ←
[lp-1 ] DEBUG 2023/07/29 13:32:37 wake-up timer: start
[lp-1 ] DEBUG 2023/07/29 13:32:37 charge total import: 1025.735kWh
[lp-1 ] DEBUG 2023/07/29 13:32:37 soc estimated: 67.81% (vehicle: 67.00%)
[lp-1 ] DEBUG 2023/07/29 13:32:37 vehicle soc: 68%
[lp-1 ] DEBUG 2023/07/29 13:32:37 vehicle soc limit: 80%
[lp-1 ] DEBUG 2023/07/29 13:32:37 vehicle range: 318km
[lp-1 ] DEBUG 2023/07/29 13:32:37 pv charge current: 0.965A = 0A + 0.965A (-666W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:32:37 max charge current: 6A
[site ] DEBUG 2023/07/29 13:32:37 ----
[lp-1 ] DEBUG 2023/07/29 13:32:37 charge power: 0W
[site ] DEBUG 2023/07/29 13:32:41 pv power: 12760W
[site ] DEBUG 2023/07/29 13:32:43 battery soc: 100%
[site ] DEBUG 2023/07/29 13:32:43 battery power: -200W
[site ] DEBUG 2023/07/29 13:32:45 grid power: -11952W
[site ] DEBUG 2023/07/29 13:32:47 grid currents: [-16.7 -17.6 -17.8]A
[site ] DEBUG 2023/07/29 13:32:50 site power: -12052W
[lp-1 ] DEBUG 2023/07/29 13:32:50 charge currents: [0 0 0]A
[lp-1 ] DEBUG 2023/07/29 13:32:50 charge total import: 1025.735kWh
[lp-1 ] DEBUG 2023/07/29 13:32:50 charger status: B
[lp-1 ] DEBUG 2023/07/29 13:32:50 pv charge current: 17.5A = 0A + 17.5A (-12052W @ 3p)
[lp-1 ] DEBUG 2023/07/29 13:32:50 max charge current: 16A
[site ] DEBUG 2023/07/29 13:32:50 ----
[lp-1 ] DEBUG 2023/07/29 13:32:50 charge power: 0W
[site ] DEBUG 2023/07/29 13:32:53 pv power: 12847W
[site ] DEBUG 2023/07/29 13:32:55 battery soc: 100%
[site ] DEBUG 2023/07/29 13:32:55 battery power: -200W
[site ] DEBUG 2023/07/29 13:32:56 grid power: -13036W
[site ] DEBUG 2023/07/29 13:32:58 grid currents: [-17.8 -18.8 -19]A
[site ] DEBUG 2023/07/29 13:32:59 site power: -13136W
[lp-1 ] DEBUG 2023/07/29 13:32:59 charge currents: [0 0 0]A
[lp-1 ] DEBUG 2023/07/29 13:32:59 charge total import: 1025.735kWh
[lp-1 ] DEBUG 2023/07/29 13:32:59 charger status: B
[lp-1 ] DEBUG 2023/07/29 13:32:59 pv charge current: 19A = 0A + 19A (-13136W @ 3p)
[site ] DEBUG 2023/07/29 13:32:59 ----
[lp-1 ] DEBUG 2023/07/29 13:32:59 charge power: 0W
[site ] DEBUG 2023/07/29 13:33:02 pv power: 13790W
[site ] DEBUG 2023/07/29 13:33:11 battery soc: 100%
[site ] DEBUG 2023/07/29 13:33:11 battery power: -199W
[site ] DEBUG 2023/07/29 13:33:12 grid power: -14667W
^C[lp-1 ] DEBUG 2023/07/29 13:33:17 charge total import: 1025.735kWh
root@debian:/etc#

Schalte für den Loadpoint mal den Loglevel höher:

Ausgabe von:
sudo evcc -l debug charger
würde ich auch mal testen…

Deine komplette Site ist negativ, evtl. hängt es damit zusammen, also dein PV Input müsste invertiert werden…

In der GUI wird alles korrekt angezeigt
Ich habe jetzt mal die Wallbox mit der Resetkarte komplett zurückgesetzt und dann nochmal neu eingerichtet. Jetzt hat er erstmal auf 80% fertig geladen… Mal schauen, ob ich das Problem beim nächsten Laden wieder habe oder tatsächlich was mit der Wallbox krumm war.

Läuft hier super. Jeweils aktuelle Versionen.

Sorry, ich weiß nicht, was bei Dir klemmt.

Tja. Heute gleiches Problem. Lädt wieder nicht. Wenn ich es manuell starte wird der Überschuss wieder reingelaufen und nach ein paar Minuten bricht er wieder ab mit Ladebereit warte auf Fahrzeug.
Ich verzweifle gerade.

Neuer Tag, gleiches Problem. Was mir aufgefallen ist. Der AccessToken und der RefreshToken haben sich geändert.
Warum passiert das? Ich kann ja nicht jeden Tag die Token in der Config anpassen.

Wo ändern sich diese Token?

Ich kippe mal meine Konfiguration ohne dem Messaging hier rein. Ggf. siehst Du was.

# open evcc at http://evcc.local:7070
network:
  schema: http
  host: evcc.local # .local suffix announces the hostname on MDNS
  port: 7070

log: info
levels:
  cache: error
  core: info
  lp-1: info
  http: trace

interval: 10s # control cycle interval

meters:
- type: template
  template: tesla-powerwall
  usage: grid
  host: 192.168.1.228
  password: Haha
  name: grid1
- type: template
  template: tesla-powerwall
  usage: pv
  host: 192.168.1.228
  password: Haha
  name: pv2
- type: template
  template: tesla-powerwall
  usage: battery
  host: 192.168.1.228
  password: Haha
  name: powerwall1
- type: template
  template: sungrow
  id: 1
  host: 192.168.1.226
  port: 502
  usage: pv
  modbus: tcpip
  name: pv4
- name: discovergy_grid
  type: template
  template: discovergy
  usage: grid
  user: [email protected]
  password: Haha
  meter: 1ESY1111111111
- name: discovergy_pv
  type: template
  template: discovergy
  usage: pv
  user: [email protected]
  password: Haha
  meter: 1ESY1111111111

chargers:
- type: template
  template: go-e-v3
  host: 192.168.1.39
  name: go_e_wallbox

vehicles:
- type: template
  template: tesla
  title: Max-Q
  accessToken:  <Zeichensalat>
  refreshToken: <Zeichensalat>
  capacity: 76
  phases: 3
  mode: pv
#  minSoC: 10
  targetSoC: 80
  minCurrent: 6
  maxCurrent: 16
  cloud: false
  name: maxq
  vin: 5Y111111111111111

loadpoints:
- title: Garage
  charger: go_e_wallbox
  vehicles:
  - maxq
  mode: pv
  # phases: 3
  mincurrent: 6
  maxcurrent: 16
  resetOnDisconnect: true
  enable: # pv mode enable behavior
    threshold: 0  # grid power threshold (in Watts, negative=export). If zero, export must exceed minimum charge pow
er to enable
    delay: 2m # threshold must be exceeded for this long
  disable: # pv mode disable behavior
    threshold: -250 # maximum import power (W)
    delay: 30s # threshold must be exceeded for this long

tariffs:
  currency: EUR # three letter ISO-4217 currency code (default EUR)
  grid:
    type: awattar
    cheap: 0.2 # EUR/kWh
    region: de # optional, choose at for Austria

  feedin:
    type: fixed
    price: 0.06 # [currency]/kWh

influx:
  url: http://pi.local:8086
  database: evcc

site:
  title: MyHouse
  meters:
    grid: grid1
    pvs:
    - pv2
    batteries:
    - powerwall1
  residualPower: 250 # 100W Einspeisung im PV Modus
# residualPower: -1000 # 1000W Netzbezug im PV Modus erlaubt
  bufferSoC: 95 # Do not discharge the Powerwall below
  prioritySoC: 90 # First charge the Powerwall to that level
telemetry: true # default: false

Danke für deine Config. Ich werde mal vergleichen.
Bin auch mit einem der Programmierer von EVCC in Kontakt. Kann nur aktuell nicht laden, da es jeden Tag nur regnet.
Die geänderten Token sehe ich in der App „Auth for Tesla“.
Da ich aber mit „evcc vehicle“ alle Infos bekomme, sollte die Verbindung zum Auto passen.

Ja, die Token ändern sich, wenn man sie neu generiert. Das ist so gewollt.

Ja, wenn man sie neu generiert ist klar. Aber ich habe ja nicht auf „neu generieren“ geklickt.
Naja, solange die Infos kommen, scheint EVCC ja kein Problem damit zu haben.