├── README.md ├── automations.yaml ├── LICENSE └── sensor_node.conf /README.md: -------------------------------------------------------------------------------- 1 | This is a config for an esphome device, together with an MCP2515 can bus component. 2 | Descriptions how to build up the module and further discussions can be found in my thread in the home assistant forum: 3 | https://community.home-assistant.io/t/configured-my-esphome-with-mcp2515-can-bus-for-stiebel-eltron-heating-pump/366053/16 4 | 5 | Eventually you have to change the CAN-id of the esphome device, if you get no response from the bus. 6 | Some users reported that the CAN-id 680 didn't work for them. 7 | Also some users reported from different baud-rates. 8 | Change them in the section, where you configure the canbus + change the gloabal variable internalResponse_id respectively. 9 | You will further have to change all values that correspond to 0x680 and the can-id 680 10 | 11 | 12 | For the address of the heat pump, change the variables PumpCANread_id and PumpCANwrite_id. 13 | For the address of the FEK, change the variable FekCANread_id 14 | 15 | # 16 | To change the comfort-temperature and eco-temperature of your heat-pump via home-assistant, add the following sensors to your homeassistant config.yaml: 17 | 18 | input_text: 19 | 20 | ww_komfort_temp: 21 | name: Warmwassertemperatur Komfort 1/10°C 22 | min: 3 23 | max: 3 24 | pattern: "[0-9]*" 25 | 26 | ww_eco_temp: 27 | name: Warmwassertemperatur Eco 1/10°C 28 | min: 3 29 | max: 3 30 | pattern: "[0-9]*" 31 | 32 | 33 | # 34 | Insert a value in 1/10 degrees Celsius in the home-assistant input_text fields. 35 | e.g. to set the comfort-temperature of your heat-pump to 55°C, set the value to 550 36 | Changing a value in the input_text will directly generate a change of the value on your heat-pump. 37 | You can verify it on your heat-pump's display. 38 | My esphome-config has a filter included that only accepts values that are > 250 and < 600. 39 | 40 | You can e.g. use this to change the comfort-temperature when there is enough energy-production from your photovoltaic module. You can leave the eco-temperature constantly low for generating no warm water at night, when there is no sunlight. 41 | 42 | 43 | # 44 | # 45 | To send individual CAN-messages from Homeassistant there is an implementation in my code, where you have to add some sensors and a script in Home-Assistant. 46 | This is more likely for experimental use, but it can help to find useful messages from your heatpump (as they sometimes vary from one device to the other). 47 | Be aware, that you can also change values on your heatpump with this function! 48 | Howto: 49 | 50 | 51 | # 52 | Add the following sensors to your homeassistant config.yaml, to create input-textfields: 53 | 54 | 55 | input_text: 56 | 57 | h_addr: 58 | name: h_addr 59 | initial: "3100" 60 | min: 4 61 | max: 4 62 | pattern: "[a-fA-F0-9]*" 63 | h_idx: 64 | name: h_idx 65 | initial: "0000" 66 | min: 4 67 | max: 4 68 | pattern: "[a-fA-F0-9]*" 69 | h_val: 70 | name: h_val 71 | initial: "0000" 72 | min: 4 73 | max: 4 74 | pattern: "[a-fA-F0-9]*" 75 | 76 | # 77 | Add the following script to you homeassistant scripts.yaml-file. 78 | The script reads the values from the input-text, converts the values into integer-values and forwards them to the ESPhome sensor. 79 | This is to prepare the can-message for forwarding it to the CAN-bus. The script itself does not forward a value to the bus. 80 | It is just generating the message in integer. The sending-part is initiated using the buttons on the esphome-device. 81 | 82 | 83 | sequence: 84 | - service: esphome. 85 | data: 86 | idx: "{{ states(\"input_text.h_idx\")|int(base=16) }}" 87 | addr: "{{ states(\"input_text.h_addr\")|int(base=16) }}" 88 | val: "{{ states(\"input_text.h_val\")|int(base=16) }}" 89 | mode: queued 90 | icon: mdi:play 91 | max: 5 92 | alias: send CAN-message to ESP-home 93 | 94 | # 95 | Create a button for the script in your Lovelace interface 96 | 97 | # 98 | To send an individual CAN-message, insert the hex-values for address in h_addr. 99 | e.g. 3100 to receive a value or 3000 to change a value on your heat-pump with address 0x180. Change the address to your individual need. 100 | 101 | Insert the Elster-index of interest in h_idx. e.g. (000c for outside-temperature) 102 | 103 | Insert a value in h_val (if you want to change a value) or leave it as 0000 if you just want to receive a current value. 104 | Press the button "send CAN-message to ESP-home 105 | 106 | Two other buttons are created automatically within home assistant: 107 | "Befehl anzeigen / Sensorupdate" 108 | This is a button is created by the ESP-home device. If you followed my ESP-yaml, this button has the id “can_befehl_anzeigen”. 109 | You may have to let it show up in the home assistant lovely interface. 110 | 111 | - Stored CAN-messages are sent to update various sensors. 112 | - The message that was manually set in home assistant is showed in the log-output of the ESP-device 113 | - The manually set CAN-message will not be transmitted to the CAN-network 114 | 115 | "CAN-Befehl absetzen" 116 | This is a button created by the ESP-home device. If you followed my ESP-yaml, this button has the id “can_send” 117 | You may have to let it show up in the home assistant lovely interface. 118 | 119 | - The CAN-message that was set in home-assistant (after pushing button "send CAN-message to ESP-home") will be sent to the CAN-network. 120 | 121 | Press the button "Befehl anzeigen / Sensorupdate" that is provided by the esphome-device, to show up the CAN-message in the log. 122 | Press the button "CAN-Befehl absetzen" that is provided by the esphome-device, to send the CAN-message to the bus. 123 | If you did everything correctly, the esphome-log will show an answer to your CAN-request after pressing "send CAN-message to ESP-home" and then pressing "CAN-Befehl absetzen". 124 | 125 | Other noteworthy addresses and their hex-values for the CAN-message 126 | 127 | - CAN ID 180: read - 3100, write - 3000 128 | - CAN ID 301: read - 0c01, FEK-device (no active can request, only listening) 129 | 130 | other addresses 131 | - 180 read: 3100 write: 3000 132 | - 301 read: 6101 write: 6001 133 | - 480 read: 9100 write: 9000 WMPme Wärmepumpenmanager 134 | - 601 read: C101 write: C001 135 | - 680 confirmation: D200 136 | -------------------------------------------------------------------------------- /automations.yaml: -------------------------------------------------------------------------------- 1 | alias: A_WW_Aufbereitung 2 | description: Warmwasseraufbereitung je nach PV-Strom 3 | trigger: 4 | - platform: numeric_state 5 | entity_id: sensor.power_real_fronius_meter_0_192_168_1_16 6 | for: 7 | hours: 0 8 | minutes: 4 9 | seconds: 0 10 | below: -2300 11 | id: ausreichend_PVStrom 12 | - platform: numeric_state 13 | entity_id: sensor.power_real_fronius_meter_0_192_168_1_16 14 | for: 15 | hours: 0 16 | minutes: 0 17 | seconds: 10 18 | above: 0 19 | id: zu_wenig_PVStrom 20 | - platform: numeric_state 21 | entity_id: sensor.wt_dammerung_lx 22 | for: 23 | hours: 0 24 | minutes: 1 25 | seconds: 0 26 | below: 20 27 | id: Sonnenuntergang 28 | - platform: template 29 | value_template: >- 30 | {{ (now().timestamp())|float >= 31 | as_timestamp(states("sensor.power_highest_peak_time_today"))|float}} 32 | id: highest_estimated_peak_time_erreicht 33 | - platform: template 34 | value_template: >- 35 | {{states("sensor.komfort_speicher_soll_temperatur")|float > 36 | states("sensor.speicher_ist_temperatur")|float+5}} 37 | id: Komfortspeichertemperatur erhöht 38 | - platform: numeric_state 39 | entity_id: sensor.power_real_fronius_meter_0_192_168_1_16 40 | below: -670 41 | id: Heizkörperleistung frei 42 | for: 43 | hours: 0 44 | minutes: 5 45 | seconds: 0 46 | - platform: time_pattern 47 | minutes: "30" 48 | id: tagsüber alle 30 Minuten 49 | - platform: state 50 | entity_id: 51 | - switch.badheizkorper_1_og 52 | from: "off" 53 | to: "on" 54 | for: 55 | hours: 0 56 | minutes: 5 57 | seconds: 0 58 | id: Badheizkörper 1 ist an 59 | - platform: template 60 | value_template: >- 61 | {{states('sensor.power_real_fronius_meter_0_192_168_1_16')|int-states('sensor.badheizkorper_2_og_leistung_w')|default(0)|int-states('sensor.badheizkorper_wirkleistung_w')|int|default(0)<-2300}} 62 | id: genugPV-Strom mit Heizung AUS 63 | condition: [] 64 | action: 65 | - if: 66 | - condition: and 67 | conditions: 68 | - condition: numeric_state 69 | entity_id: sensor.komfort_speicher_soll_temperatur 70 | below: 58 71 | - condition: or 72 | conditions: 73 | - condition: trigger 74 | id: ausreichend_PVStrom 75 | - condition: trigger 76 | id: genugPV-Strom mit Heizung AUS 77 | then: 78 | - service: input_text.set_value 79 | data: 80 | value: "{{states('sensor.komfort_speicher_soll_temperatur')|int*10+60}}" 81 | target: 82 | entity_id: input_text.ww_komfort_temp 83 | - if: 84 | - condition: trigger 85 | id: genugPV-Strom mit Heizung AUS 86 | then: 87 | - service: switch.turn_off 88 | data: {} 89 | target: 90 | entity_id: 91 | - switch.badheizkorper_2_og 92 | - switch.badheizkorper_1_og 93 | else: [] 94 | - if: 95 | - condition: trigger 96 | id: highest_estimated_peak_time_erreicht 97 | - condition: template 98 | value_template: > 99 | {{states("sensor.energy_production_today")|float >= 100 | states("sensor.energy_production_tomorrow")|float*1.7}} 101 | - condition: numeric_state 102 | entity_id: sensor.komfort_speicher_soll_temperatur 103 | below: 50 104 | then: 105 | - service: input_text.set_value 106 | data: 107 | value: "{{states('sensor.komfort_speicher_soll_temperatur')|int*10+100}}" 108 | target: 109 | entity_id: input_text.ww_komfort_temp 110 | - service: switch.turn_off 111 | data: {} 112 | target: 113 | entity_id: 114 | - switch.badheizkorper_1_og 115 | - switch.badheizkorper_2_og 116 | - delay: 117 | hours: 0 118 | minutes: 40 119 | seconds: 0 120 | milliseconds: 0 121 | - if: 122 | - condition: or 123 | conditions: 124 | - condition: trigger 125 | id: Heizkörperleistung frei 126 | - condition: trigger 127 | id: Badheizkörper 1 ist an 128 | then: 129 | - service: switch.turn_on 130 | data: {} 131 | target: 132 | entity_id: switch.badheizkorper_1_og 133 | - if: 134 | - condition: state 135 | entity_id: switch.badheizkorper_1_og 136 | state: "on" 137 | for: 138 | hours: 0 139 | minutes: 0 140 | seconds: 20 141 | - condition: numeric_state 142 | entity_id: sensor.power_real_fronius_meter_0_192_168_1_16 143 | below: -670 144 | then: 145 | - service: switch.turn_on 146 | data: {} 147 | target: 148 | entity_id: switch.badheizkorper_2_og 149 | - if: 150 | - condition: trigger 151 | id: zu_wenig_PVStrom 152 | then: 153 | - service: switch.turn_off 154 | data: {} 155 | target: 156 | entity_id: 157 | - switch.badheizkorper_1_og 158 | - switch.badheizkorper_2_og 159 | - if: 160 | - condition: template 161 | value_template: >- 162 | {{(states('sensor.speicher_ist_temperatur')|int*10=380 164 | and is_state("sun.sun", "above_horizon")}} 165 | then: 166 | - delay: 167 | hours: 0 168 | minutes: 10 169 | seconds: 0 170 | milliseconds: 0 171 | - if: 172 | - condition: numeric_state 173 | entity_id: sensor.power_real_fronius_meter_0_192_168_1_16 174 | above: 0 175 | then: 176 | - service: input_text.set_value 177 | data: 178 | value: "{{states('sensor.speicher_ist_temperatur')|int*10}}" 179 | target: 180 | entity_id: input_text.ww_komfort_temp 181 | - if: 182 | - condition: trigger 183 | id: Sonnenuntergang 184 | then: 185 | - service: input_text.set_value 186 | data: 187 | value: "380" 188 | target: 189 | entity_id: input_text.ww_komfort_temp 190 | mode: queued 191 | trace: 192 | stored_traces: 100 193 | -------------------------------------------------------------------------------- /LICENSE: -------------------------------------------------------------------------------- 1 | GNU GENERAL PUBLIC LICENSE 2 | Version 3, 29 June 2007 3 | 4 | Copyright (C) 2007 Free Software Foundation, Inc. 5 | Everyone is permitted to copy and distribute verbatim copies 6 | of this license document, but changing it is not allowed. 7 | 8 | Preamble 9 | 10 | The GNU General Public License is a free, copyleft license for 11 | software and other kinds of works. 12 | 13 | The licenses for most software and other practical works are designed 14 | to take away your freedom to share and change the works. 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But first, please read 674 | . 675 | -------------------------------------------------------------------------------- /sensor_node.conf: -------------------------------------------------------------------------------- 1 | esphome: 2 | name: esp-sensor-node-hzg 3 | platform: ESP32 4 | board: esp32dev 5 | 6 | # Enable logging 7 | logger: 8 | 9 | # Enable Home Assistant API 10 | api: 11 | password: "" 12 | 13 | 14 | # Service to pull individual can message from home assistant 15 | services: 16 | - service: pull_canmsg 17 | variables: 18 | idx: int 19 | addr: int 20 | val: int 21 | then: 22 | - lambda: |- 23 | int getA = static_cast(addr); //Adresse in Byte 0 u. 1 schreiben 24 | id(sh_state)[0]=getA>>8; 25 | id(sh_state)[1]=getA-((getA>>8)<<8); 26 | 27 | getA = static_cast(idx); //Elster-Index übernehmen 28 | //Wenn Elster-Index <= 0xff => an Byte-Stelle 2 schreiben 29 | if( (getA>>8) == 0x00) { 30 | id(sh_state)[2]=getA-((getA>>8)<<8); 31 | 32 | getA = static_cast(val); //Datenwert übernehmen und an Stelle 3 u. 4 schreiben, 5 u. 6 ist 0x00 33 | id(sh_state)[3]=getA>>8; 34 | id(sh_state)[4]=getA-((getA>>8)<<8); 35 | id(sh_state)[5]=0x00; 36 | id(sh_state)[6]=0x00; 37 | } 38 | else { 39 | //Wenn Elster-Index > 0xff kommt 0xfa an Stelle 2, der Index steht dann an Stelle 3 u. 4 40 | id(sh_state)[2]=0xfa; 41 | id(sh_state)[3]=getA>>8; 42 | id(sh_state)[4]=getA-((getA>>8)<<8); 43 | 44 | getA = static_cast(val); //der Datenwert steht dann an Stelle 5 u. 6 45 | id(sh_state)[5]=getA>>8; 46 | id(sh_state)[6]=getA-((getA>>8)<<8); 47 | } 48 | 49 | 50 | 51 | 52 | ota: 53 | password: "" 54 | 55 | wifi: 56 | ssid: "" 57 | password: "" 58 | 59 | use_address: 60 | 61 | 62 | # Enable fallback hotspot (captive portal) in case wifi connection fails 63 | ap: 64 | ssid: "" 65 | password: "" 66 | 67 | captive_portal: 68 | 69 | globals: 70 | 71 | ################################################################# 72 | #Stiebel Eltron WPF-07 Cool 2018 73 | #WPM3i software version 391-08 74 | #FEK software version 416 - 02 75 | ################################################################# 76 | #CAN ID 180: read - 3100, write - 3000 77 | #CAN ID 301: read - 0c01, FEK-device (no active can request, only listening) 78 | # 79 | #other addresses 80 | # 180 read: 3100 write: 3000 81 | # 301 read: 6101 write: 6001 82 | # 480 read: 9100 write: 9000 WMPme Wärmepumpenmanager 83 | # 601 read: C101 write: C001 84 | # 680 confirmation: D200 85 | ################################################################# 86 | #change this IDs if required 87 | 88 | #CAN read address for heat pump manager 89 | - id: PumpCANread_id 90 | type: int[2] 91 | initial_value: '{0x31, 0x00}' 92 | restore_value: no 93 | #CAN write adress for heat pump manager 94 | - id: PumpCANwrite_id 95 | type: int[2] 96 | initial_value: '{0x30, 0x00}' 97 | restore_value: no 98 | 99 | #CAN_ID of FEK 100 | - id: FekCANread_id 101 | type: int[2] 102 | initial_value: '{0xc0, 0x01}' 103 | restore_value: no 104 | 105 | #CAN ID of esp-home device is set to 680 here, change this if you have to change the CAN-id 106 | #Don't forget to also change the CAN-ID below 107 | - id: internalResponse_id 108 | type: int[2] 109 | initial_value: '{0xd2, 0x00}' 110 | restore_value: no 111 | ################################################################ 112 | 113 | #Array declaration to send CAN-Bus message from homeassistant 114 | - id: sh_state 115 | type: int[7] 116 | initial_value: '{0x00,0x00,0x00,0x00,0x00,0x00,0x00}' 117 | restore_value: no 118 | #Array declaration to send CAN-Bus message from programcode 119 | - id: send_state 120 | type: int[7] 121 | initial_value: '{0x00,0x00,0x00,0x00,0x00,0x00,0x00}' 122 | restore_value: no 123 | 124 | #declaration of sensor variables 125 | - id: el_aufnahmeleistung_ww_tag_wh_float 126 | type: float 127 | restore_value: no 128 | - id: el_aufnahmeleistung_ww_tag_wh_flag 129 | type: bool 130 | restore_value: no 131 | - id: el_aufnahmeleistung_ww_tag_kwh 132 | type: float 133 | restore_value: no 134 | - id: el_aufnahmeleistung_ww_tag_kwh_flag 135 | type: bool 136 | restore_value: no 137 | - id: el_aufnahmeleistung_heiz_tag_wh_float 138 | type: float 139 | restore_value: no 140 | - id: el_aufnahmeleistung_heiz_tag_wh_flag 141 | type: bool 142 | restore_value: no 143 | - id: el_aufnahmeleistung_heiz_tag_kwh 144 | type: float 145 | restore_value: no 146 | - id: el_aufnahmeleistung_heiz_tag_kwh_flag 147 | type: bool 148 | restore_value: no 149 | - id: el_aufnahmeleistung_ww_total_kWh_float 150 | type: float 151 | restore_value: no 152 | - id: el_aufnahmeleistung_ww_total_kWh_flag 153 | type: bool 154 | restore_value: no 155 | - id: el_aufnahmeleistung_ww_total_mWh 156 | type: float 157 | restore_value: no 158 | - id: el_aufnahmeleistung_ww_total_mWh_flag 159 | type: bool 160 | restore_value: no 161 | - id: el_aufnahmeleistung_heiz_total_kWh_float 162 | type: float 163 | restore_value: no 164 | - id: el_aufnahmeleistung_heiz_total_kWh_flag 165 | type: bool 166 | restore_value: no 167 | - id: el_aufnahmeleistung_heiz_total_mWh 168 | type: float 169 | restore_value: no 170 | 171 | - id: volumenstrom_float 172 | type: float 173 | restore_value: no 174 | 175 | - id: el_aufnahmeleistung_heiz_total_mWh_flag 176 | type: bool 177 | restore_value: no 178 | 179 | - id: VD_starts_h 180 | type: int 181 | initial_value: '0' 182 | restore_value: no 183 | 184 | - id: VD_starts_t 185 | initial_value: '0' 186 | type: float 187 | restore_value: no 188 | 189 | - id: waermemertrag_ww_tag_wh_float 190 | type: float 191 | restore_value: no 192 | - id: waermemertrag_ww_tag_wh_flag 193 | type: bool 194 | restore_value: no 195 | - id: waermemertrag_ww_tag_kwh 196 | type: float 197 | restore_value: no 198 | - id: waermemertrag_ww_tag_kwh_flag 199 | type: bool 200 | 201 | - id: waermemertrag_electr_ww_tag_wh_float 202 | type: float 203 | restore_value: no 204 | - id: waermemertrag_electr_ww_tag_wh_flag 205 | type: bool 206 | restore_value: no 207 | - id: waermemertrag_electr_ww_tag_kwh 208 | type: float 209 | restore_value: no 210 | - id: waermemertrag_electr_ww_tag_kwh_flag 211 | type: bool 212 | restore_value: no 213 | 214 | - id: waermemertrag_heiz_tag_wh_float 215 | type: float 216 | restore_value: no 217 | - id: waermemertrag_heiz_tag_wh_flag 218 | type: bool 219 | restore_value: no 220 | - id: waermemertrag_heiz_tag_kwh 221 | type: float 222 | restore_value: no 223 | - id: waermemertrag_heiz_tag_kwh_flag 224 | type: bool 225 | restore_value: no 226 | 227 | - id: waermemertrag_electr_heiz_tag_wh_float 228 | type: float 229 | restore_value: no 230 | - id: waermemertrag_electr_heiz_tag_wh_flag 231 | type: bool 232 | restore_value: no 233 | - id: waermemertrag_electr_heiz_tag_kwh 234 | type: float 235 | restore_value: no 236 | - id: waermemertrag_electr_heiz_tag_kwh_flag 237 | type: bool 238 | restore_value: no 239 | 240 | - id: waermemertrag_ww_total_kWh_float 241 | type: float 242 | restore_value: no 243 | - id: waermemertrag_ww_total_kWh_flag 244 | type: bool 245 | restore_value: no 246 | - id: waermemertrag_ww_total_mWh 247 | type: float 248 | restore_value: no 249 | - id: waermemertrag_ww_total_mWh_flag 250 | type: bool 251 | restore_value: no 252 | 253 | - id: waermemertrag_heiz_total_kWh_float 254 | type: float 255 | restore_value: no 256 | - id: waermemertrag_heiz_total_kWh_flag 257 | type: bool 258 | restore_value: no 259 | - id: waermemertrag_heiz_total_mWh 260 | type: float 261 | restore_value: no 262 | - id: waermemertrag_heiz_total_mWh_flag 263 | type: bool 264 | restore_value: no 265 | 266 | - id: waermemertrag_electr_heiz_total_kWh_float 267 | type: float 268 | restore_value: no 269 | - id: waermemertrag_electr_heiz_total_kWh_flag 270 | type: bool 271 | restore_value: no 272 | - id: waermemertrag_electr_heiz_total_mWh 273 | type: float 274 | restore_value: no 275 | - id: waermemertrag_electr_heiz_total_mWh_flag 276 | type: bool 277 | restore_value: no 278 | 279 | - id: waermemertrag_electr_ww_total_kWh_float 280 | type: float 281 | restore_value: no 282 | - id: waermemertrag_electr_ww_total_kWh_flag 283 | type: bool 284 | restore_value: no 285 | - id: waermemertrag_electr_ww_total_mWh 286 | type: float 287 | restore_value: no 288 | - id: waermemertrag_electr_ww_total_mWh_flag 289 | type: bool 290 | restore_value: no 291 | 292 | 293 | 294 | #request of sensor state by executing lambda-commands. send_state is set to the request-packet. After that update_sensor is activated which sends the command via CAN and gets inactive again 295 | #Abfrage des Sensorstatus durch Ausführen des Lambda-Befehls. send_state wird auf das request-Paket gesetzt. Anschließend wird Update_sensor aktiviert, der den Befehl via CAN absetzt und wieder deaktiviert 296 | 297 | #Outside temperature 298 | sensor: 299 | - platform: template 300 | name: "Außentemperatur" 301 | id: temperature_outside 302 | unit_of_measurement: "°C" 303 | icon: "mdi:thermometer-lines" 304 | device_class: "temperature" 305 | state_class: "measurement" 306 | accuracy_decimals: 1 307 | lambda: |- 308 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x00;id(send_state)[4]=0x0c;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 309 | id(update_sensor).publish_state(true); 310 | id(update_sensor).publish_state(false); 311 | return {}; 312 | update_interval: 10min 313 | 314 | #Source temperature 315 | - platform: template 316 | name: "Quellentemperatur" 317 | id: temperature_source 318 | unit_of_measurement: "°C" 319 | icon: "mdi:thermometer-lines" 320 | device_class: "temperature" 321 | state_class: "measurement" 322 | accuracy_decimals: 1 323 | lambda: |- 324 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x01;id(send_state)[4]=0xd4;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 325 | id(update_sensor).publish_state(true); 326 | id(update_sensor).publish_state(false); 327 | return {}; 328 | update_interval: 10min 329 | 330 | 331 | 332 | - platform: template 333 | name: "Warmwassertemperatur" 334 | id: temperature_water 335 | unit_of_measurement: "°C" 336 | icon: "mdi:thermometer-lines" 337 | device_class: "temperature" 338 | state_class: "measurement" 339 | accuracy_decimals: 1 340 | lambda: |- 341 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0x0e;id(send_state)[3]=0x01;id(send_state)[4]=0x00;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 342 | id(update_sensor).publish_state(true); 343 | id(update_sensor).publish_state(false); 344 | return {}; 345 | update_interval: 10min 346 | 347 | 348 | 349 | - platform: template 350 | name: "Verdichterstarts" 351 | id: VD_starts 352 | unit_of_measurement: "a.u." 353 | icon: "mdi:chart-bell-curve-cumulative" 354 | device_class: "power_factor" 355 | state_class: "measurement" 356 | lambda: |- 357 | 358 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x07;id(send_state)[4]=0x1c;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 359 | id(update_sensor).publish_state(true); 360 | id(update_sensor).publish_state(false); 361 | 362 | 363 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x07;id(send_state)[4]=0x1d;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 364 | id(update_sensor).publish_state(true); 365 | id(update_sensor).publish_state(false); 366 | 367 | if (id(VD_starts_t>0) and id(VD_starts_h>0)){ 368 | float VD_starts_float = id(VD_starts_h)+id(VD_starts_t); 369 | return VD_starts_float; 370 | } 371 | else {return {};} 372 | update_interval: 5h 373 | accuracy_decimals: 0 374 | 375 | 376 | 377 | #Berechnung COP erfolgt über Sensoren für Stromverbrauch und Wärmeproduktion - kein aktiver Update-Befehl 378 | 379 | 380 | - platform: template 381 | name: "COP-Wert Heizung" 382 | id: cop_heater 383 | unit_of_measurement: "a.u." 384 | icon: "mdi:chart-bell-curve-cumulative" 385 | device_class: "power_factor" 386 | state_class: "measurement" 387 | accuracy_decimals: 2 388 | lambda: |- 389 | id(total_electric_energy_heating).update(); 390 | id(total_heating_energy).update(); 391 | id(total_electric_heating_energy).update(); 392 | float heat_cop_float = (id(waermemertrag_heiz_total_mWh)+id(waermemertrag_electr_heiz_total_mWh))/id(el_aufnahmeleistung_heiz_total_mWh); 393 | return heat_cop_float; 394 | force_update: true 395 | 396 | 397 | - platform: template 398 | name: "COP-Wert Warmwasser" 399 | id: cop_water 400 | unit_of_measurement: "a.u." 401 | icon: "mdi:chart-bell-curve-cumulative" 402 | device_class: "power_factor" 403 | state_class: "measurement" 404 | accuracy_decimals: 2 405 | lambda: |- 406 | id(total_heating_energy_water).update(); 407 | id(total_electric_energy_water).update(); 408 | id(total_heating_energy_water).update(); 409 | float ww_cop_float = (id(waermemertrag_ww_total_mWh)+id(waermemertrag_electr_ww_total_mWh))/id(el_aufnahmeleistung_ww_total_mWh); 410 | return ww_cop_float; 411 | force_update: true 412 | 413 | - platform: template 414 | name: "COP-Wert Gesamt" 415 | id: cop_total 416 | unit_of_measurement: "a.u." 417 | icon: "mdi:chart-bell-curve-cumulative" 418 | device_class: "power_factor" 419 | state_class: "measurement" 420 | accuracy_decimals: 2 421 | lambda: |- 422 | id(cop_water).update(); 423 | id(cop_heater).update(); 424 | float total_cop_float = ((id(waermemertrag_heiz_total_mWh)+id(waermemertrag_electr_heiz_total_mWh))+(id(waermemertrag_ww_total_mWh)+id(waermemertrag_electr_ww_total_mWh)))/(id(el_aufnahmeleistung_heiz_total_mWh)+id(el_aufnahmeleistung_ww_total_mWh)); 425 | return total_cop_float; 426 | force_update: true 427 | update_interval: 6h 428 | 429 | 430 | 431 | 432 | - platform: template 433 | name: "Rücklauftemperatur Heizung" 434 | id: temperature_return 435 | unit_of_measurement: "°C" 436 | icon: "mdi:waves-arrow-left" 437 | device_class: "temperature" 438 | state_class: "measurement" 439 | accuracy_decimals: 1 440 | lambda: |- 441 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x00;id(send_state)[4]=0x16;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 442 | id(update_sensor).publish_state(true); 443 | id(update_sensor).publish_state(false); 444 | return {}; 445 | update_interval: 5min 446 | 447 | 448 | 449 | - platform: template 450 | name: "T Heizkreis IST" 451 | id: t_heizkreis_ist 452 | unit_of_measurement: "°C" 453 | icon: "mdi:waves-arrow-right" 454 | device_class: "temperature" 455 | state_class: "measurement" 456 | accuracy_decimals: 1 457 | lambda: |- 458 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x02;id(send_state)[4]=0xca;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 459 | id(update_sensor).publish_state(true); 460 | id(update_sensor).publish_state(false); 461 | return {}; 462 | update_interval: 5min 463 | 464 | 465 | 466 | - platform: template 467 | name: "T Heizkreis Soll" 468 | id: t_heizkreis_soll 469 | unit_of_measurement: "°C" 470 | icon: "mdi:waves-arrow-left" 471 | device_class: "temperature" 472 | state_class: "measurement" 473 | accuracy_decimals: 1 474 | lambda: |- 475 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x01;id(send_state)[4]=0xd7;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 476 | id(update_sensor).publish_state(true); 477 | id(update_sensor).publish_state(false); 478 | return {}; 479 | update_interval: 15min 480 | 481 | 482 | - platform: template 483 | name: "Speicher Soll Temperatur" 484 | id: t_ww_soll 485 | unit_of_measurement: "°C" 486 | icon: "mdi:thermometer-water" 487 | device_class: "temperature" 488 | state_class: "measurement" 489 | accuracy_decimals: 1 490 | lambda: |- 491 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0x03;id(send_state)[3]=0x00;id(send_state)[4]=0x00;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 492 | id(update_sensor).publish_state(true); 493 | id(update_sensor).publish_state(false); 494 | return {}; 495 | update_interval: 15min 496 | 497 | 498 | 499 | 500 | 501 | 502 | - platform: template 503 | name: "Speicher IST Temperatur" 504 | id: t_ww_ist 505 | unit_of_measurement: "°C" 506 | icon: "mdi:thermometer-lines" 507 | device_class: "temperature" 508 | state_class: "measurement" 509 | accuracy_decimals: 1 510 | 511 | 512 | 513 | 514 | - platform: template 515 | name: "Eco Speicher Soll Temperatur" 516 | id: ww_temp_eco_log 517 | unit_of_measurement: "°C" 518 | icon: "mdi:thermometer-low" 519 | device_class: "temperature" 520 | state_class: "measurement" 521 | accuracy_decimals: 1 522 | lambda: |- 523 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x0a;id(send_state)[4]=0x06;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 524 | id(update_sensor).publish_state(true); 525 | id(update_sensor).publish_state(false); 526 | return {}; 527 | update_interval: 10min 528 | 529 | 530 | 531 | 532 | - platform: template 533 | name: "Komfort Speicher Soll Temperatur" 534 | id: ww_temp_komfort_log 535 | unit_of_measurement: "°C" 536 | icon: "mdi:thermometer-high" 537 | device_class: "temperature" 538 | state_class: "measurement" 539 | accuracy_decimals: 1 540 | lambda: |- 541 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0x13;id(send_state)[3]=0x00;id(send_state)[4]=0x00;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 542 | id(update_sensor).publish_state(true); 543 | id(update_sensor).publish_state(false); 544 | return {}; 545 | update_interval: 10min 546 | 547 | 548 | 549 | 550 | - platform: template 551 | name: "Volumenstrom" 552 | id: volumenstrom_log 553 | unit_of_measurement: "l/min" 554 | icon: "mdi:waves-arrow-right" 555 | state_class: "measurement" 556 | accuracy_decimals: 2 557 | lambda: |- 558 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x06;id(send_state)[4]=0x73;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 559 | id(update_sensor).publish_state(true); 560 | id(update_sensor).publish_state(false); 561 | return {}; 562 | update_interval: 1min 563 | 564 | 565 | 566 | - platform: template 567 | name: "Heizungsdruck" 568 | id: heizungsdruck_log 569 | unit_of_measurement: "bar" 570 | icon: "mdi:gauge" 571 | device_class: "pressure" 572 | state_class: "measurement" 573 | accuracy_decimals: 2 574 | lambda: |- 575 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x06;id(send_state)[4]=0x74;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 576 | id(update_sensor).publish_state(true); 577 | id(update_sensor).publish_state(false); 578 | return {}; 579 | update_interval: 7min 580 | 581 | 582 | 583 | - platform: template 584 | name: "Puffertemperatur" 585 | id: puffertemperatur_log 586 | unit_of_measurement: "°C" 587 | icon: "mdi:thermometer-high" 588 | device_class: "temperature" 589 | state_class: "measurement" 590 | accuracy_decimals: 1 591 | 592 | 593 | #Automatische Updates durch FEK 594 | - platform: template 595 | name: "Luftfeuchtigkeit Wohnraum" 596 | id: humidity_inside 597 | unit_of_measurement: "%rH" 598 | icon: "mdi:water-percent" 599 | device_class: "humidity" 600 | state_class: "measurement" 601 | accuracy_decimals: 1 602 | 603 | 604 | - platform: template 605 | name: "Temperatur Wohnraum" 606 | id: temperature_inside 607 | unit_of_measurement: "°C" 608 | icon: "mdi:thermometer-lines" 609 | device_class: "temperature" 610 | state_class: "measurement" 611 | accuracy_decimals: 1 612 | 613 | 614 | 615 | 616 | - platform: template 617 | name: "Stromverbrauch Warmwasser heute" 618 | id: daily_electric_energy_water 619 | unit_of_measurement: "kWh" 620 | device_class: "energy" 621 | state_class: "measurement" 622 | accuracy_decimals: 3 623 | icon: "mdi:transmission-tower" 624 | lambda: |- 625 | //el. Leistungsaufnahme WW Tag Wh 626 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1a;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 627 | id(update_sensor).publish_state(true); 628 | id(update_sensor).publish_state(false); 629 | 630 | //el. Leistungsaufnahme WW Tag kWh 631 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1b;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 632 | id(update_sensor).publish_state(true); 633 | id(update_sensor).publish_state(false); 634 | if (id(el_aufnahmeleistung_ww_tag_kwh_flag) and id(el_aufnahmeleistung_ww_tag_wh_flag)){ 635 | id(el_aufnahmeleistung_ww_tag_kwh) += id(el_aufnahmeleistung_ww_tag_wh_float); 636 | float daily_electric_energy_water=id(el_aufnahmeleistung_ww_tag_kwh); 637 | id(el_aufnahmeleistung_ww_tag_kwh_flag)=false; 638 | id(el_aufnahmeleistung_ww_tag_wh_flag)=false; 639 | return daily_electric_energy_water; 640 | } 641 | else{return {};} 642 | update_interval: 15min 643 | 644 | - platform: template 645 | name: "WM Heizung heute" 646 | id: daily_heating_energy 647 | unit_of_measurement: "kWh" 648 | device_class: "energy" 649 | icon: "mdi:water-boiler" 650 | state_class: "measurement" 651 | accuracy_decimals: 3 652 | lambda: |- 653 | //WM Heizen Tag wh 654 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2e;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 655 | id(update_sensor).publish_state(true); 656 | id(update_sensor).publish_state(false); 657 | 658 | //WM Heizen Tag kwh 659 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2f;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 660 | id(update_sensor).publish_state(true); 661 | id(update_sensor).publish_state(false); 662 | if (id(waermemertrag_heiz_tag_kwh_flag) and id(waermemertrag_heiz_tag_wh_flag)){ 663 | id(waermemertrag_heiz_tag_kwh) += id(waermemertrag_heiz_tag_wh_float); 664 | float daily_heating_energy=id(waermemertrag_heiz_tag_kwh); 665 | id(waermemertrag_heiz_tag_kwh_flag)=false; 666 | id(waermemertrag_heiz_tag_wh_flag)=false; 667 | return daily_heating_energy; 668 | } 669 | else { 670 | return {}; 671 | } 672 | update_interval: 15min 673 | 674 | 675 | - platform: template 676 | name: "Stromverbrauch Heizung heute" 677 | id: daily_electric_energy_heating 678 | unit_of_measurement: "kWh" 679 | device_class: "energy" 680 | state_class: "measurement" 681 | icon: "mdi:transmission-tower" 682 | accuracy_decimals: 3 683 | lambda: |- 684 | //el. Leistungsaufnahme Heizen Tag Wh 685 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1e;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 686 | id(update_sensor).publish_state(true); 687 | id(update_sensor).publish_state(false); 688 | 689 | //el. Leistungsaufnahme Heizen Tag kWh 690 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1f;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 691 | id(update_sensor).publish_state(true); 692 | id(update_sensor).publish_state(false); 693 | if (id(el_aufnahmeleistung_heiz_tag_kwh_flag) and id(el_aufnahmeleistung_heiz_tag_wh_flag)){ 694 | id(el_aufnahmeleistung_heiz_tag_kwh) += id(el_aufnahmeleistung_heiz_tag_wh_float); 695 | float daily_electric_energy_heating=id(el_aufnahmeleistung_heiz_tag_kwh); 696 | id(el_aufnahmeleistung_heiz_tag_kwh_flag)=false; 697 | id(el_aufnahmeleistung_heiz_tag_wh_flag)=false; 698 | return daily_electric_energy_heating; 699 | } 700 | else{return {};} 701 | update_interval: 6h 702 | 703 | 704 | - platform: template 705 | name: "WM Warmwasser heute" 706 | id: daily_heating_energy_water 707 | unit_of_measurement: "kWh" 708 | device_class: "energy" 709 | icon: "mdi:water-boiler" 710 | state_class: "measurement" 711 | accuracy_decimals: 3 712 | lambda: |- 713 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2a;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 714 | id(update_sensor).publish_state(true); 715 | id(update_sensor).publish_state(false); 716 | 717 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2b;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 718 | id(update_sensor).publish_state(true); 719 | id(update_sensor).publish_state(false); 720 | if (id(waermemertrag_ww_tag_kwh_flag) and id(waermemertrag_ww_tag_wh_flag)){ 721 | id(waermemertrag_ww_tag_kwh) += id(waermemertrag_ww_tag_wh_float); 722 | float daily_heating_energy_water=id(waermemertrag_ww_tag_kwh); 723 | id(waermemertrag_ww_tag_kwh_flag)=false; 724 | id(waermemertrag_ww_tag_wh_flag)=false; 725 | return daily_heating_energy_water; 726 | } 727 | else{ return {}; 728 | } 729 | update_interval: 15min 730 | 731 | 732 | 733 | - platform: template 734 | name: "Stromverbrauch Warmwasser total" 735 | id: total_electric_energy_water 736 | unit_of_measurement: "MWh" 737 | device_class: "energy" 738 | state_class: "total_increasing" 739 | icon: "mdi:transmission-tower" 740 | accuracy_decimals: 3 741 | lambda: |- 742 | //el. Leistungsaufnahme WW Summe kwh 743 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1c;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 744 | id(update_sensor).publish_state(true); 745 | id(update_sensor).publish_state(false); 746 | 747 | //el. Leistungsaufnahme WW Summe Mwh 748 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x1d;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 749 | id(update_sensor).publish_state(true); 750 | id(update_sensor).publish_state(false); 751 | if (id(el_aufnahmeleistung_ww_total_mWh_flag) and id(el_aufnahmeleistung_ww_total_kWh_flag)){ 752 | id(el_aufnahmeleistung_ww_total_mWh) += id(el_aufnahmeleistung_ww_total_kWh_float); 753 | float total_electric_energy_water=id(el_aufnahmeleistung_ww_total_mWh); 754 | id(el_aufnahmeleistung_ww_total_mWh_flag)=false; 755 | id(el_aufnahmeleistung_ww_total_kWh_flag)=false; 756 | return total_electric_energy_water; 757 | } 758 | else { return {};} 759 | 760 | 761 | 762 | - platform: template 763 | name: "Stromverbrauch Heizung total" 764 | id: total_electric_energy_heating 765 | unit_of_measurement: "MWh" 766 | device_class: "energy" 767 | icon: "mdi:transmission-tower" 768 | state_class: "total_increasing" 769 | accuracy_decimals: 3 770 | lambda: |- 771 | //el. Leistungsaufnahme Heizen Summe kwh 772 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x20;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 773 | id(update_sensor).publish_state(true); 774 | id(update_sensor).publish_state(false); 775 | 776 | //el. Leistungsaufnahme Heizen Summe Mwh 777 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x21;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 778 | id(update_sensor).publish_state(true); 779 | id(update_sensor).publish_state(false); 780 | if (id(el_aufnahmeleistung_heiz_total_mWh_flag) and id(el_aufnahmeleistung_heiz_total_kWh_flag)){ 781 | id(el_aufnahmeleistung_heiz_total_mWh) += id(el_aufnahmeleistung_heiz_total_kWh_float); 782 | float total_electric_energy_heating=id(el_aufnahmeleistung_heiz_total_mWh); 783 | id(el_aufnahmeleistung_heiz_total_mWh_flag)=false; 784 | id(el_aufnahmeleistung_heiz_total_mWh_flag)=false; 785 | return total_electric_energy_heating; 786 | } 787 | else {return {}; 788 | 789 | } 790 | 791 | 792 | - platform: template 793 | name: "WM Heizen total" 794 | id: total_heating_energy 795 | unit_of_measurement: "MWh" 796 | device_class: "energy" 797 | icon: "mdi:water-boiler" 798 | state_class: "total_increasing" 799 | accuracy_decimals: 3 800 | lambda: |- 801 | //WM Heizen Summe kwh 802 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x30;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 803 | id(update_sensor).publish_state(true); 804 | id(update_sensor).publish_state(false); 805 | 806 | //WM Heizen Summe Mwh 807 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x31;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 808 | id(update_sensor).publish_state(true); 809 | id(update_sensor).publish_state(false); 810 | 811 | //Überprüfung ob beide Leistungswerte empfangen wurden 812 | if (id(waermemertrag_heiz_total_kWh_flag) and id(waermemertrag_heiz_total_mWh_flag)){ 813 | id(waermemertrag_heiz_total_mWh) += id(waermemertrag_heiz_total_kWh_float); 814 | float total_heating_energy=id(waermemertrag_heiz_total_mWh); 815 | id(waermemertrag_heiz_total_kWh_flag)=false; 816 | id(waermemertrag_heiz_total_mWh_flag)=false; 817 | return total_heating_energy; 818 | } 819 | else { 820 | return {}; 821 | } 822 | 823 | 824 | 825 | - platform: template 826 | name: "WM Warmwasser total" 827 | id: total_heating_energy_water 828 | unit_of_measurement: "MWh" 829 | device_class: "energy" 830 | icon: "mdi:water-boiler" 831 | state_class: "total_increasing" 832 | accuracy_decimals: 3 833 | lambda: |- 834 | //WM WW Summe kwh 835 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2c;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 836 | id(update_sensor).publish_state(true); 837 | id(update_sensor).publish_state(false); 838 | 839 | //WM WW Summe Mwh 840 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x2d;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 841 | id(update_sensor).publish_state(true); 842 | id(update_sensor).publish_state(false); 843 | //Überprüfung ob beide Leistungswerte empfangen wurden 844 | if (id(waermemertrag_ww_total_mWh_flag) and id(waermemertrag_ww_total_kWh_flag)){ 845 | id(waermemertrag_ww_total_mWh) += id(waermemertrag_ww_total_kWh_float); 846 | float total_heating_energy_water=id(waermemertrag_ww_total_mWh); 847 | id(waermemertrag_ww_total_mWh_flag)=false; 848 | id(waermemertrag_ww_total_kWh_flag)=false; 849 | return total_heating_energy_water; 850 | } 851 | else { 852 | return {}; 853 | 854 | } 855 | 856 | 857 | - platform: template 858 | name: "WM elektr. Warmwasser total" 859 | id: total_electric_heating_energy_water 860 | unit_of_measurement: "kWh" 861 | device_class: "energy" 862 | icon: "mdi:water-boiler" 863 | state_class: "total_increasing" 864 | accuracy_decimals: 3 865 | lambda: |- 866 | //WM NE WW Summe kwh 867 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x24;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 868 | id(update_sensor).publish_state(true); 869 | id(update_sensor).publish_state(false); 870 | 871 | //WM NE WW Summe MWh 872 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x25;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 873 | id(update_sensor).publish_state(true); 874 | id(update_sensor).publish_state(false); 875 | 876 | //Überprüfung ob beide Leistungswerte empfangen wurden 877 | if (id(waermemertrag_electr_ww_total_mWh_flag) and id(waermemertrag_electr_ww_total_kWh_flag)){ 878 | id(waermemertrag_electr_ww_total_mWh) += id(waermemertrag_electr_ww_total_kWh_float); 879 | float total_electric_heating_energy_water=id(waermemertrag_electr_ww_total_mWh); 880 | id(waermemertrag_electr_ww_total_mWh_flag)=false; 881 | id(waermemertrag_electr_ww_total_kWh_flag)=false; 882 | return total_electric_heating_energy_water; 883 | } 884 | else { 885 | return {}; 886 | 887 | } 888 | 889 | 890 | 891 | - platform: template 892 | name: "WM elektr. heizen total" 893 | id: total_electric_heating_energy 894 | unit_of_measurement: "kWh" 895 | device_class: "energy" 896 | icon: "mdi:water-boiler" 897 | state_class: "total_increasing" 898 | accuracy_decimals: 3 899 | lambda: |- 900 | //WM NE Heizen Summe kWh 901 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x28;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 902 | id(update_sensor).publish_state(true); 903 | id(update_sensor).publish_state(false); 904 | 905 | //WM NE Heizen Summe MWh 906 | id(send_state)[0]=id(PumpCANread_id)[0];id(send_state)[1]=id(PumpCANread_id)[1];id(send_state)[2]=0xfa;id(send_state)[3]=0x09;id(send_state)[4]=0x29;id(send_state)[5]=0x00;id(send_state)[6]=0x00; 907 | id(update_sensor).publish_state(true); 908 | id(update_sensor).publish_state(false); 909 | 910 | //Überprüfung ob beide Leistungswerte empfangen wurden 911 | if (id(waermemertrag_electr_heiz_total_kWh_flag) and id(waermemertrag_electr_heiz_total_mWh_flag)){ 912 | id(waermemertrag_electr_heiz_total_mWh) += id(waermemertrag_electr_heiz_total_kWh_float); 913 | float total_electric_heating_energy=id(waermemertrag_electr_heiz_total_mWh); 914 | id(waermemertrag_electr_heiz_total_kWh_flag)=false; 915 | id(waermemertrag_electr_heiz_total_mWh_flag)=false; 916 | return total_electric_heating_energy; 917 | } 918 | 919 | else { 920 | return {}; 921 | 922 | } 923 | 924 | 925 | text_sensor: 926 | #Text sensor to change comfort temperature of warm water for automation in homeassistant with photovoltaic 927 | #Sensor zum verändern der Warmwasser-Komfort-Temperatur für Automatisierung mit PV-Anlage 928 | - platform: homeassistant 929 | name: "ww_komfort_temp" 930 | entity_id: input_text.ww_komfort_temp 931 | id: HASSeingabe_wwkomforttemp 932 | filters: 933 | - lambda: |- 934 | int eingabe=atoi(x.c_str()); 935 | if (eingabe < 250 or eingabe > 600) { 936 | //Einfache Abfrage der Temperatur durchführen, falls keine gültige Eingabe erfolgt ist 937 | id(send_state)[0]=id(PumpCANread_id)[0]; 938 | id(send_state)[1]=id(PumpCANread_id)[1]; 939 | id(send_state)[2]=0x13; 940 | id(send_state)[3]=0x00; 941 | id(send_state)[4]=0x00; 942 | id(send_state)[5]=0x00; 943 | id(send_state)[6]=0x00; 944 | return x; 945 | 946 | 947 | } else { 948 | //Wenn User-Eingabe gültig war, Daten für Übertragung an Heizung bereit machen 949 | id(send_state)[0]=id(PumpCANwrite_id)[0]; 950 | id(send_state)[1]=id(PumpCANwrite_id)[1]; 951 | id(send_state)[2]=0x13; 952 | id(send_state)[3]=eingabe>>8; 953 | id(send_state)[4]=eingabe-((eingabe>>8)<<8); 954 | id(send_state)[5]=0x00; 955 | id(send_state)[6]=0x00; 956 | return x; 957 | 958 | } 959 | on_value: 960 | then: 961 | - lambda: |- 962 | //Daten senden 963 | id(update_sensor).publish_state(true); 964 | id(update_sensor).publish_state(false); 965 | 966 | 967 | #Text sensor to change eco temperature of warm water for automation in homeassistant with photovoltaic 968 | #Sensor zum verändern der Warmwasser-Eco-Temperatur für Automatisierung mit PV-Anlage 969 | - platform: homeassistant 970 | name: "ww_eco_temp" 971 | entity_id: input_text.ww_eco_temp 972 | id: HASSeingabe_wwecotemp 973 | filters: 974 | - lambda: |- 975 | int eingabe=atoi(x.c_str()); 976 | if (eingabe < 250 or eingabe > 600) { 977 | 978 | id(send_state)[0]=id(PumpCANread_id)[0]; 979 | id(send_state)[1]=id(PumpCANread_id)[0]; 980 | id(send_state)[2]=0xfa; 981 | id(send_state)[3]=0x0a; 982 | id(send_state)[4]=0x06; 983 | id(send_state)[5]=0x00; 984 | id(send_state)[6]=0x00; 985 | return x; 986 | 987 | 988 | } else { 989 | 990 | id(send_state)[0]=id(PumpCANwrite_id)[0]; 991 | id(send_state)[1]=id(PumpCANwrite_id)[1]; 992 | id(send_state)[2]=0xfa; 993 | id(send_state)[3]=0x0a; 994 | id(send_state)[4]=0x06; 995 | id(send_state)[5]=eingabe>>8; 996 | id(send_state)[6]=eingabe-((eingabe>>8)<<8); 997 | return x; 998 | 999 | } 1000 | on_value: 1001 | then: 1002 | - lambda: |- 1003 | id(update_sensor).publish_state(true); 1004 | id(update_sensor).publish_state(false); 1005 | 1006 | 1007 | 1008 | binary_sensor: 1009 | 1010 | #sensor to send can commands from lambda routines at certain intervals 1011 | #Sensor zum Senden von CAN-Befehlen aus Lambda-Routinen 1012 | - platform: template 1013 | id: update_sensor 1014 | on_press: 1015 | then: 1016 | - canbus.send: 1017 | data: !lambda 1018 | return {(uint8_t) id(send_state)[0],(uint8_t) id(send_state)[1],(uint8_t) id(send_state)[2],(uint8_t) id(send_state)[3], (uint8_t) id(send_state)[4],(uint8_t) id(send_state)[5],(uint8_t) id(send_state)[6]}; 1019 | can_id: 0x680 1020 | 1021 | button: 1022 | 1023 | #Button to show can command in log - no signal over can bus, but refresh of some sensors is initiated 1024 | #Button für CAN-Befehl im Log anzeigen - CAN-Befehl aus Home-Assistant-Dienst - es wird dabei kein Signal an den CAN-Bus gesendet; Führt auch erstmaliges refresh einzelner Sensoren aus 1025 | - platform: template 1026 | name: "Befehl anzeigen / Sensorupdate" 1027 | id: can_befehl_anzeigen 1028 | on_press: 1029 | then: 1030 | lambda: |- 1031 | id(VD_starts).update(); 1032 | id(cop_total).update(); 1033 | ESP_LOGI("main", "Value of my hex_sensor: %x, %x, %x, %x, %x, %x, %x", id(sh_state)[0],id(sh_state)[1],id(sh_state)[2],id(sh_state)[3],id(sh_state)[4],id(sh_state)[5],id(sh_state)[6]); 1034 | 1035 | 1036 | #Button to push can command from home-assistant service 1037 | #Button für CAN-Befehl absetzen - CAN-Befehl aus Home-Assistant-Dienst wird an CAN-Bus übermittelt 1038 | - platform: template 1039 | name: CAN-Befehl absetzen 1040 | id: can_send 1041 | # Optional variables: 1042 | icon: "mdi:emoticon-outline" 1043 | on_press: 1044 | then: 1045 | - canbus.send: 1046 | data: !lambda 1047 | return {(uint8_t) id(sh_state)[0],(uint8_t) id(sh_state)[1],(uint8_t) id(sh_state)[2],(uint8_t) id(sh_state)[3], (uint8_t) id(sh_state)[4],(uint8_t) id(sh_state)[5],(uint8_t) id(sh_state)[6]}; 1048 | can_id: 0x680 1049 | 1050 | 1051 | #Button to reset ESP-device 1052 | #Button zum automatisierten reset des ESP-Device 1053 | - platform: restart 1054 | name: "Heizraum ESP restart" 1055 | id: esp_heizraum_restart_bt 1056 | on_press: 1057 | - logger.log: "Button pressed" 1058 | 1059 | 1060 | 1061 | #WW_Programm 1062 | 1063 | # - canbus.send: 1064 | # data: [ 0x31, 0x00, 0xfa,0x17,0xa0,0x00,0x00 ] 1065 | # can_id: 0x680 1066 | # - delay: 500ms 1067 | 1068 | # { "HEISSGAS_TEMP" , 0x0265, et_dec_val}, ok 1069 | # - canbus.send: 1070 | # data: [ 0x31, 0x00, 0xfa,0x02,0x65,0x00,0x00 ] 1071 | # can_id: 0x680 1072 | # - delay: 500ms 1073 | 1074 | #Warmwasser Betriebsmodus Abfrage: - ok 1/10 1075 | # - canbus.send: 1076 | # data: [ 0x31, 0x00, 0xfa,0x01,0x12,0x00,0x00 ] 1077 | # can_id: 0x680 1078 | # - delay: 500ms 1079 | 1080 | 1081 | spi: 1082 | id: McpSpi 1083 | clk_pin: GPIO18 1084 | mosi_pin: GPIO23 1085 | miso_pin: GPIO19 1086 | 1087 | 1088 | 1089 | ################################################################################################################## 1090 | #Eventually the CAN_ID of the esp-device must be changed 1091 | #additionally don't forget to change the value of the variable internalResponse_id in the global variable section 1092 | ################################################################################################################## 1093 | 1094 | canbus: 1095 | - platform: mcp2515 1096 | id: my_mcp2515 1097 | spi_id: McpSpi 1098 | cs_pin: GPIO17 1099 | can_id: 680 1100 | use_extended_id: false 1101 | bit_rate: 20kbps 1102 | on_frame: 1103 | ################################################################################################################## 1104 | 1105 | #compressor Starts thousands 1106 | - can_id: 0x180 1107 | then: 1108 | - lambda: |- 1109 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x07 and x[4]==0x1c) { 1110 | float VD_x =float((int16_t((x[6])+( (x[5])<<8))))*1000; 1111 | id(VD_starts_t)=VD_x; 1112 | ESP_LOGD("main", "Verdichter Starts 1000 empfangen over can is %f", VD_x); 1113 | } 1114 | 1115 | #compressor Starts hundreds 1116 | - lambda: |- 1117 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x07 and x[4]==0x1d) { 1118 | int VD_x =((int16_t((x[6])+( (x[5])<<8)))); 1119 | id(VD_starts_h)=VD_x; 1120 | ESP_LOGD("main", "Verdichter Starts 100 empfangen over can is %i", VD_x); 1121 | } 1122 | 1123 | #T Heizkreis WW Komfort Soll Wert 1124 | - lambda: |- 1125 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0x13) { 1126 | float temperature =(float((int16_t((x[4])+( (x[3])<<8))))/10); 1127 | id(ww_temp_komfort_log).publish_state(temperature); 1128 | ESP_LOGD("main", "T Komfort Soll empfangen over can is %f", temperature); 1129 | } 1130 | #Volumenstrom (l/min) 1131 | - lambda: |- 1132 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x06 and x[4]==0x73) { 1133 | float current =(float((int16_t((x[6])+( (x[5])<<8))))/100); 1134 | id(volumenstrom_log).publish_state(current); 1135 | id(volumenstrom_float)=current; 1136 | ESP_LOGD("main", "l/min Volumenstrom empfangen over can is %f", current); 1137 | } 1138 | 1139 | #Heizungsdruck (bar) 1140 | - lambda: |- 1141 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x06 and x[4]==0x74) { 1142 | float pressure =(float((int16_t((x[6])+( (x[5])<<8))))/100); 1143 | id(heizungsdruck_log).publish_state(pressure); 1144 | ESP_LOGD("main", "bar Heizungsdruck empfangen over can is %f", pressure); 1145 | } 1146 | 1147 | 1148 | #T Heizkreis WW Eco Soll Abfrage 1149 | - lambda: |- 1150 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x0a and x[4]==0x06) { 1151 | float temperature =(float((int16_t((x[6])+( (x[5])<<8))))/10); 1152 | id(ww_temp_eco_log).publish_state(temperature); 1153 | ESP_LOGD("main", "T Eco Soll empfangen over can is %f", temperature); 1154 | } 1155 | 1156 | 1157 | #T Heizkreis IST Abfrage 1158 | - lambda: |- 1159 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x02 and x[4] == 0xca) { 1160 | float temperature =(float((int16_t((x[6])+( (x[5])<<8))))/10); 1161 | id(t_heizkreis_ist).publish_state(temperature); 1162 | ESP_LOGD("main", "T Heizkreis IST empfangen over can is %f", temperature); 1163 | } 1164 | #T Heizkreis Soll Abfrage 1165 | - lambda: |- 1166 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x01 and x[4] == 0xd7) { 1167 | float temperature =(float((int16_t((x[6])+( (x[5])<<8))))/10); 1168 | id(t_heizkreis_soll).publish_state(temperature); 1169 | ESP_LOGD("main", "T Heizkreis Soll empfangen over can is %f", temperature); 1170 | } 1171 | #T WW Soll Abfrage 1172 | - lambda: |- 1173 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0x03) { 1174 | float temperature =(float((int16_t((x[4])+( (x[3])<<8))))/10); 1175 | id(t_ww_soll).publish_state(temperature); 1176 | ESP_LOGD("main", "T Warmwasser Soll empfangen over can is %f", temperature); 1177 | } 1178 | 1179 | 1180 | #Warmwasser-Temperaturabfrage + Gerätespezifischer Offset 3.9 °C 1181 | - lambda: |- 1182 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x00 and x[4] == 0x0e) { 1183 | float temperature =(float((int16_t((x[6])+( (x[5])<<8))))/10)+3.9; 1184 | id(temperature_water).publish_state(temperature); 1185 | ESP_LOGD("main", "Warmwasser-Temperature empfangen over can is %f", temperature); 1186 | } 1187 | 1188 | #Quellen-Temperatur 1189 | - lambda: |- 1190 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x01 and x[4] == 0xd4) { 1191 | float temperature =float((int16_t((x[6])+( (x[5])<<8))))/10; 1192 | id(temperature_source).publish_state(temperature); 1193 | ESP_LOGD("main", "Quellen-Temperature received over can is %f", temperature); 1194 | } 1195 | 1196 | #Speicher IST-temperatur 1197 | - lambda: |- 1198 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0x0e) { 1199 | float temperature =float((int16_t((x[4])+( (x[3])<<8))))/10; 1200 | id(t_ww_ist).publish_state(temperature); 1201 | ESP_LOGD("main", "Speicher-Temperature received over can is %f", temperature); 1202 | } 1203 | 1204 | #Rücklauftemperatur 1205 | - lambda: |- 1206 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x00 and x[4] == 0x16) { 1207 | float temperature =float((int16_t((x[6])+( (x[5])<<8))))/10; 1208 | id(temperature_return).publish_state(temperature); 1209 | ESP_LOGD("main", "Rücklauf-Temperature received over can is %f", temperature); 1210 | } 1211 | 1212 | 1213 | #Außentemperatur 1214 | #float temperature =float(float((int((x[6])+( (x[5])<<8))))/10); 1215 | - lambda: |- 1216 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[3]==0x00 and x[4] == 0x0c) { 1217 | float temperature =float((int16_t((x[6])+( (x[5])<<8)))); 1218 | if (temperature > 65000){ 1219 | temperature=(temperature-65536); 1220 | } 1221 | temperature=temperature/10; 1222 | id(temperature_outside).publish_state(temperature); 1223 | ESP_LOGD("main", "Aussen-Temperature received over can is %f", temperature); 1224 | } 1225 | #Elektrische Leistungsaufnahme Wh /kWh 1226 | - lambda: |- 1227 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x09) { 1228 | if (x[4]==0x1a){ 1229 | id(el_aufnahmeleistung_ww_tag_wh_float) = (float((int((x[6])+( (x[5])<<8))))/1000); 1230 | id(el_aufnahmeleistung_ww_tag_wh_flag)=true; 1231 | ESP_LOGD("main", "el_aufnahmeleistung_ww_tag_kwh received over can is %f", id(el_aufnahmeleistung_ww_tag_wh_float));} 1232 | else if (x[4]==0x1e){ 1233 | id(el_aufnahmeleistung_heiz_tag_wh_float) = (float((int((x[6])+( (x[5])<<8))))/1000); 1234 | id(el_aufnahmeleistung_heiz_tag_wh_flag) = true; 1235 | ESP_LOGD("main", "el_aufnahmeleistung_heiz_tag_wh received over can is %f", id(el_aufnahmeleistung_heiz_tag_wh_float));} 1236 | else if (x[4]==0x1c){ 1237 | id(el_aufnahmeleistung_ww_total_kWh_float) = (float((int((x[6])+( (x[5])<<8))))/1000); 1238 | id(el_aufnahmeleistung_ww_total_kWh_flag)=true; 1239 | ESP_LOGD("main", "el_aufnahmeleistung_ww_total_kWh received over can is %f", id(el_aufnahmeleistung_ww_total_kWh_float));} 1240 | else if (x[4]==0x20){ 1241 | id(el_aufnahmeleistung_heiz_total_kWh_float) = (float((int((x[6])+( (x[5])<<8))))/1000); 1242 | id(el_aufnahmeleistung_heiz_total_kWh_flag) = true; 1243 | ESP_LOGD("main", "el_aufnahmeleistung_heiz_total_kWh received over can is %f", id(el_aufnahmeleistung_heiz_total_kWh_float));} 1244 | } 1245 | 1246 | #Elektrische Leistungsaufnahme kWh / MWH 1247 | - lambda: |- 1248 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x09) { 1249 | if(x[4]==0x1b){ 1250 | id(el_aufnahmeleistung_ww_tag_kwh) =float(int((x[6])+( (x[5])<<8))); 1251 | id(el_aufnahmeleistung_ww_tag_kwh_flag)=true; 1252 | ESP_LOGD("main", "el_aufnahmeleistung_ww_tag_kwh received over can is %f", id(el_aufnahmeleistung_ww_tag_kwh));} 1253 | else if(x[4]==0x1f){ 1254 | id(el_aufnahmeleistung_heiz_tag_kwh) =float(int((x[6])+( (x[5])<<8))); 1255 | id(el_aufnahmeleistung_heiz_tag_kwh_flag)=true; 1256 | ESP_LOGD("main", "el_aufnahmeleistung_heiz_tag_kwh received over can is %f", id(el_aufnahmeleistung_heiz_tag_kwh));} 1257 | else if(x[4]==0x1d){ 1258 | id(el_aufnahmeleistung_ww_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1259 | id(el_aufnahmeleistung_ww_total_mWh_flag)=true; 1260 | ESP_LOGD("main", "el_aufnahmeleistung_ww_total_mWh received over can is %f", id(el_aufnahmeleistung_ww_total_mWh));} 1261 | else if(x[4]==0x21){ 1262 | id(el_aufnahmeleistung_heiz_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1263 | id(el_aufnahmeleistung_heiz_total_mWh_flag)=true; 1264 | ESP_LOGD("main", "el_aufnahmeleistung_heiz_total_mWh received over can is %f", id(el_aufnahmeleistung_heiz_total_mWh));} 1265 | } 1266 | 1267 | 1268 | #Wärmeertrag WW/Heizung MWh / kWH 1269 | - lambda: |- 1270 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x09) { 1271 | if(x[4]==0x25){ 1272 | id(waermemertrag_electr_ww_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1273 | id(waermemertrag_electr_ww_total_mWh_flag)=true; 1274 | ESP_LOGD("main", "waermemertrag_electr_ww_tag_kwh received over can is %f", id(waermemertrag_electr_ww_total_mWh));} 1275 | else if(x[4]==0x29){ 1276 | id(waermemertrag_electr_heiz_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1277 | id(waermemertrag_electr_heiz_total_mWh_flag)=true; 1278 | ESP_LOGD("main", "waermemertrag_electr_heiz_tag_kwh received over can is %f", id(waermemertrag_electr_heiz_total_mWh));} 1279 | else if(x[4]==0x2b){ 1280 | id(waermemertrag_ww_tag_kwh) =float(int((x[6])+( (x[5])<<8))); 1281 | id(waermemertrag_ww_tag_kwh_flag)=true; 1282 | ESP_LOGD("main", "waermemertrag_ww_tag_kwh received over can is %f", id(waermemertrag_ww_tag_kwh));} 1283 | else if(x[4]==0x2d){ 1284 | id(waermemertrag_ww_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1285 | id(waermemertrag_ww_total_mWh_flag)=true; 1286 | ESP_LOGD("main", "waermemertrag_ww_total_mWh received over can is %f", id(waermemertrag_ww_total_mWh));} 1287 | else if(x[4]==0x2f){ 1288 | id(waermemertrag_heiz_tag_kwh) =float(int((x[6])+( (x[5])<<8))); 1289 | id(waermemertrag_heiz_tag_kwh_flag)=true; 1290 | ESP_LOGD("main", "waermemertrag_heiz_tag_kwh received over can is %f", id(waermemertrag_heiz_tag_kwh));} 1291 | else if(x[4]==0x31){ 1292 | id(waermemertrag_heiz_total_mWh) =float(int((x[6])+( (x[5])<<8))); 1293 | id(waermemertrag_heiz_total_mWh_flag)=true; 1294 | ESP_LOGD("main", "waermemertrag_heiz_total_kWh_float received over can is %f", id(waermemertrag_heiz_total_mWh));} 1295 | } 1296 | 1297 | 1298 | #Wärmeertrag WW/Heizung Wh / kWH 1299 | - lambda: |- 1300 | if(x[0]==id(internalResponse_id)[0] and x[1]==id(internalResponse_id)[1] and x[2]==0xfa and x[3]==0x09) { 1301 | if(x[4]==0x24){ 1302 | id(waermemertrag_electr_ww_total_kWh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1303 | id(waermemertrag_electr_ww_total_kWh_flag)=true; 1304 | ESP_LOGD("main", "waermemertrag_electr_ww_tag_wh_float received over can is %f", id(waermemertrag_electr_ww_total_kWh_float));} 1305 | else if(x[4]==0x28){ 1306 | id(waermemertrag_electr_heiz_total_kWh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1307 | id(waermemertrag_electr_heiz_total_kWh_flag)=true; 1308 | ESP_LOGD("main", "waermemertrag_electr_heiz_tag_wh_float received over can is %f", id(waermemertrag_electr_heiz_total_kWh_float));} 1309 | else if(x[4]==0x2a){ 1310 | id(waermemertrag_ww_tag_wh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1311 | id(waermemertrag_ww_tag_wh_flag)=true; 1312 | ESP_LOGD("main", "waermemertrag_ww_tag_wh_float received over can is %f", id(waermemertrag_ww_tag_wh_float));} 1313 | else if(x[4]==0x2c){ 1314 | id(waermemertrag_ww_total_kWh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1315 | id(waermemertrag_ww_total_kWh_flag)=true; 1316 | ESP_LOGD("main", "waermemertrag_ww_total_kWh_float received over can is %f", id(waermemertrag_ww_total_kWh_float));} 1317 | else if(x[4]==0x2e){ 1318 | id(waermemertrag_heiz_tag_wh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1319 | id(waermemertrag_heiz_tag_wh_flag)=true; 1320 | ESP_LOGD("main", "waermemertrag_heiz_tag_wh_float received over can is %f", id(waermemertrag_heiz_tag_wh_float));} 1321 | else if(x[4]==0x30){ 1322 | id(waermemertrag_heiz_total_kWh_float) =float(int((x[6])+( (x[5])<<8)))/1000; 1323 | id(waermemertrag_heiz_total_kWh_flag)=true; 1324 | ESP_LOGD("main", "waermemertrag_heiz_total_kWh_float received over can is %f", id(waermemertrag_heiz_total_kWh_float));} 1325 | } 1326 | 1327 | 1328 | 1329 | 1330 | 1331 | #Read humidity from FEK transmits 1332 | - can_id: 0x301 1333 | then: 1334 | - lambda: |- 1335 | if(x[0]==id(FekCANread_id)[0] and x[1]==id(FekCANread_id)[1] and x[2]==0x75) { 1336 | float humidity =float(float((int16_t((x[4])+( (x[3])<<8))))/10); 1337 | id(humidity_inside).publish_state(humidity); 1338 | ESP_LOGD("main", "Humidity received over can is %f", humidity); 1339 | } 1340 | #read room temperature from FEK transmits 1341 | - lambda: |- 1342 | if(x[0]==id(FekCANread_id)[0] and x[1]==id(FekCANread_id)[1] and x[2]==0x11) { 1343 | float temperature =float((int16_t((x[4])+( (x[3])<<8))))/10; 1344 | id(temperature_inside).publish_state(temperature); 1345 | ESP_LOGD("main", "Raum-Temperature received over can is %f", temperature); 1346 | } 1347 | 1348 | 1349 | 1350 | #Read other CAN-messages in the bus, that may be interesting and show them in the logs 1351 | - can_id: 0x180 1352 | then: 1353 | - lambda: |- 1354 | int wert0 = int(x[0]); 1355 | int wert1 =int(x[1]); 1356 | int wert2 =int(x[2]); 1357 | int wert3 =int(x[3]); 1358 | int wert4 =int(x[4]); 1359 | int wert5 =int(x[5]); 1360 | int wert6 =int(x[6]); 1361 | float wert7 = float(int((x[6])+( (x[5])<<8))); 1362 | float wert8 = float(int((x[4])+( (x[3])<<8))); 1363 | ESP_LOGI("main", "Antwort von 180 Hex: %x %x %x %x %x %x %x", wert0, wert1, wert2, wert3, wert4, wert5, wert6); 1364 | ESP_LOGI("main", "Antwort von 180 Float: %f", wert7); 1365 | ESP_LOGI("main", "Antwort von 180 Dez.: %i %i", wert5, wert6); 1366 | ESP_LOGI("main", "Antwort klein von 180 Float: %f", wert8); 1367 | ESP_LOGI("main", "Antwort klein von 180 Dez.: %i %i", wert3, wert4); 1368 | 1369 | 1370 | - can_id: 0x700 1371 | then: 1372 | - lambda: |- 1373 | int wert0 = int(x[0]); 1374 | int wert1 =int(x[1]); 1375 | int wert2 =int(x[2]); 1376 | int wert3 =int(x[3]); 1377 | int wert4 =int(x[4]); 1378 | int wert5 =int(x[5]); 1379 | int wert6 =int(x[6]); 1380 | float wert7 = float(int((x[6])+( (x[5])<<8))); 1381 | float wert8 = float(int((x[4])+( (x[3])<<8))); 1382 | ESP_LOGI("main", "Antwort von 700 Hex: %x %x %x %x %x %x %x", wert0, wert1, wert2, wert3, wert4, wert5, wert6); 1383 | ESP_LOGI("main", "Antwort von 700 Float: %f", wert7); 1384 | ESP_LOGI("main", "Antwort von 700 Dez.: %i %i", wert5, wert6); 1385 | ESP_LOGI("main", "Antwort klein von 700 Float: %f", wert8); 1386 | ESP_LOGI("main", "Antwort klein von 700 Dez.: %i %i", wert3, wert4); 1387 | 1388 | - can_id: 0x480 1389 | then: 1390 | - lambda: |- 1391 | int wert0 = int(x[0]); 1392 | int wert1 =int(x[1]); 1393 | int wert2 =int(x[2]); 1394 | int wert3 =int(x[3]); 1395 | int wert4 =int(x[4]); 1396 | int wert5 =int(x[5]); 1397 | int wert6 =int(x[6]); 1398 | float wert7 = float(int((x[6])+( (x[5])<<8))); 1399 | float wert8 = float(int((x[4])+( (x[3])<<8))); 1400 | ESP_LOGI("main", "Antwort von 480 Hex: %x %x %x %x %x %x %x", wert0, wert1, wert2, wert3, wert4, wert5, wert6); 1401 | ESP_LOGI("main", "Antwort von 480 Float: %f", wert7); 1402 | ESP_LOGI("main", "Antwort von 480 Dez.: %i %i", wert5, wert6); 1403 | ESP_LOGI("main", "Antwort klein von 480 Float: %f", wert8); 1404 | ESP_LOGI("main", "Antwort klein von 480 Dez.: %i %i", wert3, wert4); 1405 | 1406 | - can_id: 0x100 1407 | then: 1408 | - lambda: |- 1409 | int wert0 = int(x[0]); 1410 | int wert1 =int(x[1]); 1411 | int wert2 =int(x[2]); 1412 | int wert3 =int(x[3]); 1413 | int wert4 =int(x[4]); 1414 | int wert5 =int(x[5]); 1415 | int wert6 =int(x[6]); 1416 | float wert7 = float(int((x[6])+( (x[5])<<8))); 1417 | float wert8 = float(int((x[4])+( (x[3])<<8))); 1418 | ESP_LOGI("main", "Antwort von 100 Hex: %x %x %x %x %x %x %x", wert0, wert1, wert2, wert3, wert4, wert5, wert6); 1419 | ESP_LOGI("main", "Antwort von 100 Float: %f", wert7); 1420 | ESP_LOGI("main", "Antwort von 100 Dez.: %i %i", wert5, wert6); 1421 | ESP_LOGI("main", "Antwort klein von 100 Float: %f", wert8); 1422 | ESP_LOGI("main", "Antwort klein von 100 Dez.: %i %i", wert3, wert4); 1423 | 1424 | - can_id: 0x301 1425 | then: 1426 | - lambda: |- 1427 | int wert0 = int(x[0]); 1428 | int wert1 =int(x[1]); 1429 | int wert2 =int(x[2]); 1430 | int wert3 =int(x[3]); 1431 | int wert4 =int(x[4]); 1432 | int wert5 =int(x[5]); 1433 | int wert6 =int(x[6]); 1434 | float wert7 = float(int((x[6])+( (x[5])<<8))); 1435 | float wert8 = float(int((x[4])+( (x[3])<<8))); 1436 | ESP_LOGI("main", "Antwort von 301 Hex: %x %x %x %x %x %x %x", wert0, wert1, wert2, wert3, wert4, wert5, wert6); 1437 | ESP_LOGI("main", "Antwort von 301 Float: %f", wert7); 1438 | ESP_LOGI("main", "Antwort von 301 Dez.: %i %i", wert5, wert6); 1439 | ESP_LOGI("main", "Antwort klein von 301 Float: %f", wert8); 1440 | ESP_LOGI("main", "Antwort klein von 301 Dez.: %i %i", wert3, wert4); 1441 | --------------------------------------------------------------------------------