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@noone2k
Last active November 12, 2024 18:04
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bc2500 info/control with esphome
esphome:
name: bc2500-ble-idf
friendly_name: bc2500-ble-idf
esp32:
board: az-delivery-devkit-v4
framework:
type: esp-idf
sdkconfig_options:
CONFIG_FREERTOS_UNICORE: y
advanced:
ignore_efuse_mac_crc: true
# Enable logging
logger:
# level: INFO
# level: DEBUG
# baud_rate: 0
ota:
password: !secret ota_password
wifi:
ssid: !secret wifi_ssid
password: !secret wifi_password
reboot_timeout: 0s
fast_connect: True
# Enable fallback hotspot (captive portal) in case wifi connection fails
ap:
ssid: "Bc2500-Ble Fallback Hotspot"
web_server:
port: 80
local: true
js_include: "./v2/www.js"
js_url: ""
version: 2
captive_portal:
mqtt:
id: mqtt_client
broker: !secret mqtt_broker
port: !secret mqtt_port
discovery: False
reboot_timeout: 0s
topic_prefix: b2500
log_topic: b2500/debug
time:
- platform: sntp
id: sntp_time
on_time:
# Every 10 seconds
- seconds: /10
then:
- script.execute: ble_process
- script.wait: ble_process
#- script.execute: power_zero
#- button.press: query_info3
globals:
- id: ble_1_connected
type: bool
initial_value: '0'
- id: ble_1_initialized
type: bool
initial_value: '0'
- id: ble_2_connected
type: bool
initial_value: '0'
- id: ble_2_initialized
type: bool
initial_value: '0'
- id: cmd30_xor_last_1
type: int
initial_value: '0'
- id: cmd30_xor_last_2
type: int
initial_value: '0'
- id: internal_console_dbg
type: bool
initial_value: '0'
- id: internal_console_hexdump
type: bool
initial_value: '1'
esp32_ble_tracker:
ble_client:
- mac_address: !secret hm2500_1_mac
id: bc2500_1
on_connect:
then:
- globals.set:
id: ble_1_connected
value: '1'
- binary_sensor.template.publish:
id: bool_ble_ok_1
state: ON
- script.execute:
id: ble_set_time
ble_device_nr: 1
- script.wait: ble_set_time
- script.execute:
id: ble_set_time
ble_device_nr: 1
- script.wait: ble_set_time
on_disconnect:
then:
- binary_sensor.template.publish:
id: bool_ble_ok_1
state: OFF
- globals.set:
id: ble_1_connected
value: '0'
- globals.set:
id: ble_1_initialized
value: '0'
- mac_address: !secret hm2500_2_mac
id: bc2500_2
on_connect:
then:
- globals.set:
id: ble_2_connected
value: '1'
- binary_sensor.template.publish:
id: bool_ble_ok_2
state: ON
- script.execute:
id: ble_set_time
ble_device_nr: 2
- script.wait: ble_set_time
- script.execute:
id: ble_set_time
ble_device_nr: 2
- script.wait: ble_set_time
on_disconnect:
then:
- binary_sensor.template.publish:
id: bool_ble_ok_2
state: OFF
- globals.set:
id: ble_2_connected
value: '0'
- globals.set:
id: ble_2_initialized
value: '0'
button:
- platform: restart
id: controller_restart
name: "Restart Controller"
number:
- platform: template
name: "D1-52: Entladeschwelle"
id: sensor_discharge_treshold_1
state_topic: b2500/1/battery/discharge_treshold
command_topic: b2500/1/battery/discharge_treshold/set
optimistic: True
min_value: 1
max_value: 500
step: 1
restore_value: True
on_value:
- script.execute:
id: ble_set_discharge_treshold
ble_device_nr: 1
discharge: !lambda return x;
- platform: template
name: "D1-53: DOD"
state_topic: b2500/1/battery/dod
command_topic: b2500/1/battery/dod/set
id: sensor_dod_1
optimistic: True
min_value: 10
max_value: 100
step: 1
restore_value: True
on_value:
- script.execute:
id: ble_set_dod
ble_device_nr: 1
dod: !lambda return x;
- platform: template
name: "D2-52: Entladeschwelle"
id: sensor_discharge_treshold_2
state_topic: b2500/2/battery/discharge_treshold
command_topic: b2500/2/battery/discharge_treshold/set
optimistic: True
min_value: 1
max_value: 500
step: 1
restore_value: True
on_value:
- script.execute:
id: ble_set_discharge_treshold
ble_device_nr: 2
discharge: !lambda return x;
- platform: template
name: "D2-53: DOD"
state_topic: b2500/2/battery/dod
command_topic: b2500/2/battery/dod/set
id: sensor_dod_2
optimistic: True
min_value: 10
max_value: 100
step: 1
restore_value: True
on_value:
- script.execute:
id: ble_set_dod
ble_device_nr: 2
dod: !lambda return x;
### power zero
- platform: template
name: "MQTT: opendtu set limit"
id: mqtt_opendtu_limit
internal: False
state_topic: !secret mqtt_opendtu_limit_cmd
command_topic: !secret mqtt_opendtu_limit_state
optimistic: True
min_value: 1
max_value: 75
step: 1
restore_value: True
- platform: template
name: "MQTT: opendtu set limit max"
id: mqtt_opendtu_limit_max
internal: False
optimistic: True
min_value: 1
max_value: 75
step: 1
restore_value: True
switch:
- platform: template
id: switch_powerout_1_1
name: "D1-01: Power Out 1"
state_topic: b2500/1/power1/enabled
command_topic: b2500/1/power1/enabled/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- switch.turn_on: switch_powerout_1_1
- script.execute:
id: ble_powerout
ble_device_nr: 1
on_turn_off:
then:
- switch.turn_off: switch_powerout_1_1
- script.execute:
id: ble_powerout
ble_device_nr: 1
- platform: template
id: switch_powerout_1_2
name: "D1-02: Power Out 2"
state_topic: b2500/1/power2/enabled
command_topic: b2500/1/power2/enabled/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- switch.turn_on: switch_powerout_1_2
- script.execute:
id: ble_powerout
ble_device_nr: 1
on_turn_off:
then:
- switch.turn_off: switch_powerout_1_2
- script.execute:
id: ble_powerout
ble_device_nr: 1
- platform: template
id: switch_powerout_2_1
name: "D2-01: Power Out 1"
state_topic: b2500/2/power1/enabled
command_topic: b2500/2/power1/enabled/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- script.execute:
id: ble_powerout
ble_device_nr: 2
on_turn_off:
then:
- script.execute:
id: ble_powerout
ble_device_nr: 2
- platform: template
id: switch_powerout_2_2
name: "D2-02: Power Out 2"
state_topic: b2500/2/power2/enabled
command_topic: b2500/2/power2/enabled/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- script.execute:
id: ble_powerout
ble_device_nr: 2
on_turn_off:
then:
- script.execute:
id: ble_powerout
ble_device_nr: 2
- platform: template
id: switch_pv2_passthrough_1
name: "D1-03: PV2 Passtrough"
state_topic: b2500/1/pv2/passtrough
command_topic: b2500/1/pv2/passtrough/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- script.execute:
id: ble_passthrough
ble_device_nr: 1
switch_cmd: 0
on_turn_off:
then:
- script.execute:
id: ble_passthrough
ble_device_nr: 1
switch_cmd: 1
- platform: template
id: switch_pv2_passthrough_2
name: "D2-03: PV2 Passtrough"
state_topic: b2500/2/pv2/passtrough
command_topic: b2500/2/pv2/passtrough/set
optimistic: True
assumed_state: True
on_turn_on:
then:
- script.execute:
id: ble_passthrough
ble_device_nr: 2
switch_cmd: 0
on_turn_off:
then:
- script.execute:
id: ble_passthrough
ble_device_nr: 2
switch_cmd: 1
- platform: template
id: switch_debug_hexdump
name: "INTERNAL:DEBUG HEXDUMP"
optimistic: True
#assumed_state: True
- platform: template
id: switch_opendtu_limit
name: "MQTT: opendtu - zero power"
optimistic: True
#assumed_state: True
text:
- platform: template
name: "A1-t01 - Device Type"
id: txt_A01_1
state_topic: b2500/1/device/type
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A1-t02 - Device ID"
state_topic: b2500/1/device/id
id: txt_A02_1
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A1-t03 - MAC"
id: txt_A03_1
state_topic: b2500/1/device/ble_mac
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A1-t04 - SSID"
id: txt_A11_1
state_topic: b2500/1/device/wifi_ssid
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A2-t01 - Device Type"
id: txt_A01_2
state_topic: b2500/2/device/type
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A2-t02 - Device ID"
id: txt_A02_2
state_topic: b2500/2/device/id
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A2-t03 - MAC"
id: txt_A03_2
optimistic: true
state_topic: b2500/2/device/ble_mac
max_length: 30
mode: text
- platform: template
name: "A2-t04 - SSID"
id: txt_A11_2
state_topic: b2500/2/device/wifi_ssid
optimistic: true
max_length: 30
mode: text
- platform: template
name: "A1-t56: Szene"
id: txt_scene_1
state_topic: b2500/1/device/scene
optimistic: true
max_length: 32
mode: text
- platform: template
name: "A1-t57: Region"
id: txt_region_1
state_topic: b2500/1/device/region
optimistic: true
max_length: 8
mode: text
- platform: template
name: "A2-t56: Szene"
id: txt_scene_2
state_topic: b2500/2/device/scene
optimistic: true
max_length: 32
mode: text
- platform: template
name: "A2-t57: Region"
id: txt_region_2
state_topic: b2500/2/device/region
optimistic: true
max_length: 8
mode: text
binary_sensor:
- platform: template
name: "D1-i01: PV 1 - Aktiv"
id: bool_pv_active_1_1
state_topic: b2500/1/pv1/active
- platform: template
name: "D1-i11: PV 2 - Aktiv"
id: bool_pv_active_1_2
state_topic: b2500/1/pv2/active
- platform: template
name: "D1-i02: PV 1 - Transparent"
id: bool_pv_transparent_1_1
state_topic: b2500/1/pv1/transparent
- platform: template
name: "D1-i11: PV 2 - Transparent"
id: bool_pv_transparent_1_2
state_topic: b2500/1/pv2/transparent
- platform: template
name: "D1-i54: Wifi Connected (?)"
id: bool_wifi_ok_1
state_topic: b2500/1/device/wifi_ok
- platform: template
name: "D1-i55: MQTT1 Connected"
id: bool_mqtt1_ok_1
state_topic: b2500/1/device/mqtt_ok
- platform: template
name: "D1-i58: BLE Connected"
id: bool_ble_ok_1
state_topic: b2500/1/device/ble_ok
- platform: template
name: "D1-i21: Ausgang 1 - Aktiv"
id: bool_power_active_1_1
state_topic: b2500/1/power1/active
- platform: template
name: "D1-i31: Ausgang 2 - Aktiv"
id: bool_power_active_1_2
state_topic: b2500/1/power2/active
- platform: template
name: "D1-i40: Erweiterung 1 - angeschlossen"
id: bool_extern_connected_1_1
state_topic: b2500/1/extern1/connected
- platform: template
name: "D1-i41: Erweiterung 2 - angeschlossen"
id: bool_extern_connected_1_2
state_topic: b2500/1/extern2/connected
- platform: template
name: "D2-i01: PV 1 - Aktiv"
id: bool_pv_active_2_1
state_topic: b2500/2/pv1/active
- platform: template
name: "D2-i11: PV 2 - Aktiv"
id: bool_pv_active_2_2
state_topic: b2500/2/pv2/active
- platform: template
name: "D2-i02: PV 1 - Transparent"
id: bool_pv_transparent_2_1
state_topic: b2500/2/pv1/transparent
- platform: template
name: "D2-i12: PV 2 - Transparent"
id: bool_pv_transparent_2_2
state_topic: b2500/2/pv2/transparent
- platform: template
name: "D2-i54: Wifi Connected (?)"
id: bool_wifi_ok_2
state_topic: b2500/2/device/wifi_ok
- platform: template
name: "D2-i55: MQTT1 Connected"
id: bool_mqtt1_ok_2
state_topic: b2500/2/device/mqtt_ok
- platform: template
name: "D2-i58: BLE Connected"
id: bool_ble_ok_2
state_topic: b2500/2/device/ble_ok
- platform: template
name: "D2-i21: Ausgang 1 - Aktiv"
id: bool_power_active_2_1
state_topic: b2500/2/power1/active
- platform: template
name: "D2-i31: Ausgang 2 - Aktiv"
id: bool_power_active_2_2
state_topic: b2500/2/power2/active
- platform: template
name: "D2-i40: Erweiterung 1 - angeschlossen"
id: bool_extern_connected_2_1
state_topic: b2500/2/extern1/connected
- platform: template
name: "D2-i41: Erweiterung 2 - angeschlossen"
id: bool_extern_connected_2_2
state_topic: b2500/2/extern2/connected
sensor:
- platform: template
name: "D1-i05: PV 1 - Leistung"
id: sensor_pv_power_in_1_1
state_topic: b2500/1/pv1/power
accuracy_decimals: 0
- platform: template
name: "D1-i15: PV 2 - Leistung"
id: sensor_pv_power_in_1_2
state_topic: b2500/1/pv2/power
accuracy_decimals: 0
- platform: template
name: "D1-i50: Füllstand der Batterie in Prozent"
id: sensor_bat_remain_1
state_topic: b2500/1/battery/remaining_percent
accuracy_decimals: 0
- platform: template
name: "D1-i51: Füllstand der Batterie in Wh"
id: sensor_bat_capacity_1
state_topic: b2500/1/battery/remaining_capacity
accuracy_decimals: 0
- platform: template
name: "D1-i25: Ausgang 1 - Leistung"
id: sensor_power_out_1_1
state_topic: b2500/1/power1/power
accuracy_decimals: 0
- platform: template
name: "D1-i35: Ausgang 2 - Leistung"
id: sensor_power_out_1_2
state_topic: b2500/1/power2/power
accuracy_decimals: 0
- platform: template
name: "A1-t59: Geräte Version"
id: sensor_device_version_1
state_topic: b2500/1/device/fw_version
accuracy_decimals: 2
- platform: template
name: "D2-i05: PV 1 - Leistung"
id: sensor_pv_power_in_2_1
state_topic: b2500/2/pv1/power
accuracy_decimals: 0
- platform: template
name: "D2-i15: PV 2 - Leistung"
id: sensor_pv_power_in_2_2
state_topic: b2500/2/pv2/power
accuracy_decimals: 0
- platform: template
name: "D2-i50: Füllstand der Batterie in Prozent"
id: sensor_bat_remain_2
state_topic: b2500/2/battery/remaining_percent
accuracy_decimals: 0
- platform: template
name: "D2-i51: Füllstand der Batterie in Wh"
id: sensor_bat_capacity_2
state_topic: b2500/2/battery/remaining_capacity
accuracy_decimals: 0
- platform: template
name: "D2-i25: Ausgang 1 - Leistung "
id: sensor_power_out_2_1
state_topic: b2500/2/power1/power
accuracy_decimals: 0
- platform: template
name: "D2-i35: Ausgang 2 - Leistung "
id: sensor_power_out_2_2
state_topic: b2500/2/power2/power
accuracy_decimals: 0
- platform: template
name: "A2-t59: Geräte Version"
id: sensor_device_version_2
state_topic: b2500/2/device/fw_version
accuracy_decimals: 2
- platform: ble_client
ble_client_id: bc2500_1
internal: True
type: characteristic
name: "infoX2a"
id: infoX2a
service_uuid: 'ff00'
characteristic_uuid: 'ff02'
notify: True
lambda: |-
std::vector<char> tData;
for (auto b : x) { tData.push_back(b); }
id(ble_notify_parse).execute(1,tData);
return (float)x[0];
- platform: ble_client
ble_client_id: bc2500_2
internal: True
type: characteristic
name: "infoX2b"
id: infoX2b
service_uuid: 'ff00'
characteristic_uuid: 'ff02'
notify: True
lambda: |-
std::vector<char> tData;
for (auto b : x) { tData.push_back(b); }
id(ble_notify_parse).execute(2,tData);
return (float)x[0];
### power zero - mqtt grid power sensor ( any who publish the grid power to mqtt - defined in secrets,yaml )
- platform: mqtt_subscribe
name: "MQTT: Grid Power"
id: mqtt_grid_power
topic: !secret mqtt_grid_power
on_value:
then:
- script.execute: power_zero
###test
- platform: ble_client
ble_client_id: bc2500_1
internal: True
type: characteristic
name: "infoX6a"
id: infoX6a
service_uuid: 'ff00'
characteristic_uuid: 'ff06'
notify: True
lambda: |-
std::vector<char> tData;
for (auto b : x) { tData.push_back(b); }
id(ble_notify_parse_test).execute(1,tData);
return (float)x[0];
- platform: ble_client
ble_client_id: bc2500_2
internal: True
type: characteristic
name: "infoX6b"
id: infoX6b
service_uuid: 'ff00'
characteristic_uuid: 'ff06'
notify: True
lambda: |-
std::vector<char> tData;
for (auto b : x) { tData.push_back(b); }
id(ble_notify_parse_test).execute(1,tData);
return (float)x[0];
script:
# ble communication
#
# action ( 00f1 )
#
# head = 0x73
# length = len(paket)
# cntl = 0x23
# cmd = 0x02 set Region 1Byte (0x00 = EU / 0x01 = China / 0x02 = Non-EU)
# = 0x03 runtimeInfo 1Byte (0x01)
# = 0x04 DeviceInfo 1Byte (0x01)
# = 0x0B DOD 1Byte (0-100)
# = 0x0C Entladeschwelle 2Byte (0-500)
# = 0x0D PV2-Passtrough 1Byte (0x00 on / 0x01 off)
# = 0x0E PowerOut 1Byte (0x00 1-2 off / 0x01 1 on / 0x02 2 on / 0x03 1-2 on)
#
# = 0x05 Wifi-Config xByte ( ssid<.,.>pwd )
# = 0x08 Wifi-State 1Byte (0x01) ????
#
# q&d c&p - more details will be added, maybe ...
# = 0x14 set AWS MQTT xByte ( url<.,.>Port ) ....
# = 0x60 set MQTT Certs xByte ( 0x00 = client.key / 0x01 = client.crt / 0x02 = ca.crt + cert len )
# = 0x61 trans MQTT Certs xByte ( jeweils 128bytes des certs )
# = 0x62 end MQTT Certs xByte ( )
#
# testing / notes
# = 0x01 Debug ?!?! 1Byte (0x00 = off / 0x01 = on) - enables QBLEGATTSNOTIFY notify 1 / 81 ( entspricht ~ runtimeinfo )
# = 0x06
# = 0x07
# = 0x09
# = 0x0A
# = 0x0E HW-RESET ????? / send before head 0XAA ( deactivate output ??? )
# = 0x0F new in fw 131 1Byte ( 0x01 )
#
# = 0x30 found in logs ... unknown parm 0x01 ???? answers since fw 131
# = 0x14 maybe not for mqtt ... set localtime ??? for auth/certs/challenge requests ????? ( query/set wifi depends ????)
#
# data = xx xx xx xx xx xx .... / depends on cmd
# crc = xor len(paket) - 1
#
#
# responses ( ff02 ):
#
# head = 0x73
# length = len(paket)
# cntl = 0x23
# cmd = cmd
# data = xx xx xx xx xx ....
#
#
#
################ maybe direct for arm
# send ( ff01 )
#
# head1 = 0xAA
# head2(?) = 0x55 ( not length ?!?!? )
# cmd = 1x / 2x / 3x ( flash - 30 "open"/ 31 - write / 32 "close" ) / 5x
# data = xx xx xx xx xx ....
# crc = xor len(paket) -1
#
################ maybe direct for bms
# send/receive ( ff06 )
#
# head = 0xAA
# len = 0x05/0x03
# data = xx xx xxx ( xx xx )
# crc = x1 + x2 + ... + xn
#
#
#
# -> aa 05 01 00 01 01 00 08
# <- aa 01 00 01
#
# -> aa 05 01 00 01 00 00 07
# <- aa 01 00 01
#
- id: ble_command_simple
parameters:
ble_device_nr: int
ble_cmd: int
ble_cmd_parm: int
then:
- logger.log:
format: "ble command parse: %i [%i] %i"
args: [ 'ble_device_nr','ble_cmd','ble_cmd_parm' ]
- if:
condition:
lambda: 'return (ble_device_nr == 1);'
then:
- ble_client.ble_write:
id: bc2500_1
#service_uuid: 'ff00'
#characteristic_uuid: 'ff01'
service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
characteristic_uuid: 0000ff01-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat1{ 0x73,0x06,0x23,(unsigned char)ble_cmd};
if (ble_cmd == 0x0C) {
rdat1.push_back((uint8_t)((ble_cmd_parm >> 0) & 0xFF));
rdat1.push_back((uint8_t)((ble_cmd_parm >> 8) & 0xFF));
} else {
rdat1.push_back((unsigned char)ble_cmd_parm);
}
int rlen = rdat1.size();
rdat1.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat1[i];
}
rdat1.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat1) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat1;
- if:
condition:
lambda: 'return (ble_device_nr == 2);'
then:
- ble_client.ble_write:
id: bc2500_2
service_uuid: 'ff00'
characteristic_uuid: 'ff01'
value: !lambda |-
std::vector<unsigned char> rdat2{ 0x73,0x06,0x23,(unsigned char)ble_cmd};
if (ble_cmd == 0x0C) {
rdat2.push_back((uint8_t)((ble_cmd_parm >> 0) & 0xFF));
rdat2.push_back((uint8_t)((ble_cmd_parm >> 8) & 0xFF));
} else {
rdat2.push_back((unsigned char)ble_cmd_parm);
}
int rlen = rdat2.size();
rdat2.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat2[i];
}
rdat2.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat2) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat2;
- id: ble_command_string
parameters:
ble_device_nr: int
ble_cmd: int
ble_cmd_parm: string
then:
- logger.log:
format: "ble command parse: %i [%i]"
args: [ 'ble_device_nr','ble_cmd']
- if:
condition:
lambda: 'return (ble_device_nr == 1);'
then:
- ble_client.ble_write:
id: bc2500_1
#service_uuid: 'ff00'
#characteristic_uuid: 'ff01'
service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
characteristic_uuid: 0000ff01-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat1{ 0x73,0x06,0x23,(unsigned char)ble_cmd};
for (auto b : ble_cmd_parm) {
rdat1.push_back((unsigned char)b);
}
int rlen = rdat1.size();
rdat1.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat1[i];
}
rdat1.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat1) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat1;
- if:
condition:
lambda: 'return (ble_device_nr == 2);'
then:
- ble_client.ble_write:
id: bc2500_2
service_uuid: 'ff00'
characteristic_uuid: 'ff01'
#service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
#characteristic_uuid: 0000ff01-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat2{ 0x73,0x06,0x23,(unsigned char)ble_cmd};
for (auto b : ble_cmd_parm) {
rdat2.push_back((unsigned char)b);
}
int rlen = rdat2.size();
rdat2.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat2[i];
}
rdat2.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat2) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat2;
- id: ble_set_time
parameters:
ble_device_nr: int
then:
- if:
condition:
lambda: 'return (ble_device_nr == 1);'
then:
- ble_client.ble_write:
id: bc2500_1
#service_uuid: 'ff00'
#characteristic_uuid: 'ff01'
service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
characteristic_uuid: 0000ff01-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat1{ 0x73,0x0d,0x23,0x14, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x3c, 0x00 };
auto time = id(sntp_time).now();
rdat1.at(4) = time.year - 1900;
rdat1.at(5) = time.month;
rdat1.at(6) = time.day_of_month;
rdat1.at(7) = time.hour;
rdat1.at(8) = time.minute;
rdat1.at(9) = time.second + 1;
int rlen = rdat1.size();
rdat1.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat1[i];
}
rdat1.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat1) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat1;
- globals.set:
id: ble_1_initialized
value: '1'
- if:
condition:
lambda: 'return (ble_device_nr == 2);'
then:
- ble_client.ble_write:
id: bc2500_2
service_uuid: 'ff00'
characteristic_uuid: 'ff01'
#service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
#characteristic_uuid: 0000ff01-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat2{ 0x73,0x0d,0x23,0x14, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x3c, 0x00 };
auto time = id(sntp_time).now();
rdat2.at(4) = time.year - 1900;
rdat2.at(5) = time.month;
rdat2.at(6) = time.day_of_month;
rdat2.at(7) = time.hour;
rdat2.at(8) = time.minute;
rdat2.at(9) = time.second + 1;
int rlen = rdat2.size();
rdat2.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat2[i];
}
rdat2.push_back(rxor);
if (id(internal_console_dbg)) {
for (auto b : rdat2) {
ESP_LOGD("COMMAND", "%x - %i - %c", b,b,b);
}
}
return rdat2;
- globals.set:
id: ble_2_initialized
value: '1'
- id: ble_command_raw_06
parameters:
ble_device_nr: int
ble_cmd_parm: char[]
then:
- logger.log:
format: "ble command parse (raw): %i"
args: [ 'ble_device_nr']
- if:
condition:
lambda: 'return (ble_device_nr == 1);'
then:
- ble_client.ble_write:
id: bc2500_1
#service_uuid: 'ff00'
#characteristic_uuid: 'ff06'
service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
characteristic_uuid: 0000ff06-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat1;
for (auto b : ble_cmd_parm) {
rdat1.push_back((unsigned char)b);
}
/*
int rlen = rdat1.size();
rdat1.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat1[i];
}
rdat1.push_back(rxor);
*/
//if (id(internal_console_dbg)) {
for (auto b : rdat1) {
ESP_LOGD("COMMAND raw", "%x - %i - %c", b,b,b);
}
//}
return rdat1;
- if:
condition:
lambda: 'return (ble_device_nr == 2);'
then:
- ble_client.ble_write:
id: bc2500_2
#service_uuid: 'ff00'
#characteristic_uuid: 'ff06'
service_uuid: 0000ff00-0000-1000-8000-00805f9b34fb
characteristic_uuid: 0000ff06-0000-1000-8000-00805f9b34fb
value: !lambda |-
std::vector<unsigned char> rdat2;
for (auto b : ble_cmd_parm) {
rdat2.push_back((unsigned char)b);
}
/*
int rlen = rdat2.size();
rdat2.at(1) = rlen+1;
int rxor = 0;
for (int i=0;i<rlen;i++) {
rxor = rxor ^ rdat2[i];
}
rdat2.push_back(rxor);
*/
//if (id(internal_console_dbg)) {
for (auto b : rdat2) {
ESP_LOGD("COMMAND raw", "%x - %i - %c", b,b,b);
}
//}
return rdat2;
- id: ble_process
then:
- if:
condition:
- lambda: 'return (id(ble_1_connected) && id(ble_1_initialized));'
then:
- script.execute:
id: ble_runtime_query
ble_device_nr: 1
- script.wait: ble_runtime_query
### query cmd30 if firmware > 1.30
- if:
condition:
- lambda: 'return (id(sensor_device_version_1).state * 100 > 130);'
then:
- script.execute:
id: ble_runtime_query30
ble_device_nr: 1
- script.wait: ble_runtime_query30
- script.execute:
id: ble_runtime_query0F
ble_device_nr: 1
- script.wait: ble_runtime_query0F
### query deviceinfo if empty
- if:
condition:
- lambda: 'return (id(txt_A03_1).state == "");'
then:
- script.execute:
id: ble_command_simple
ble_device_nr: 1
ble_cmd: 0x04
ble_cmd_parm: 0x01
- script.wait: ble_command_simple
- if:
condition:
- lambda: 'return (id(ble_2_connected) && id(ble_2_initialized));'
then:
- script.execute:
id: ble_runtime_query
ble_device_nr: 2
- script.wait: ble_runtime_query
### query cmd30 if firmware > 1.30
- if:
condition:
- lambda: 'return (id(sensor_device_version_2).state * 100 > 130);'
then:
- script.execute:
id: ble_runtime_query30
ble_device_nr: 2
- script.wait: ble_runtime_query30
- script.execute:
id: ble_runtime_query0F
ble_device_nr: 2
- script.wait: ble_runtime_query0F
### query deviceinfo if empty
- if:
condition:
- lambda: 'return (id(txt_A03_2).state == "");'
then:
- script.execute:
id: ble_command_simple
ble_device_nr: 2
ble_cmd: 0x04
ble_cmd_parm: 0x01
- script.wait: ble_command_simple
- id: ble_runtime_query
parameters:
ble_device_nr: int
then:
- logger.log:
format: "runtime query: %i"
args: [ 'ble_device_nr' ]
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x03
ble_cmd_parm: 0x01
- script.wait: ble_command_simple
- id: ble_runtime_query30
parameters:
ble_device_nr: int
then:
- logger.log:
format: "runtime query 30: %i"
args: [ 'ble_device_nr' ]
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x30
ble_cmd_parm: 0x01
- script.wait: ble_command_simple
- id: ble_runtime_query0F
parameters:
ble_device_nr: int
then:
- logger.log:
format: "runtime query 0F: %i"
args: [ 'ble_device_nr' ]
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x0F
ble_cmd_parm: 0x01
- script.wait: ble_command_simple
- id: ble_powerout
parameters:
ble_device_nr: int
then:
- lambda: |-
int ble_cmd_t = 0x00;
if ( ble_device_nr == 1 ) {
if ( ! id(switch_powerout_1_1).state && ! id(switch_powerout_1_2).state ) { ble_cmd_t = 0x00; }
if ( id(switch_powerout_1_1).state && ! id(switch_powerout_1_2).state ) { ble_cmd_t = 0x01; }
if ( ! id(switch_powerout_1_1).state && id(switch_powerout_1_2).state ) { ble_cmd_t = 0x02; }
if ( id(switch_powerout_1_1).state && id(switch_powerout_1_2).state ) { ble_cmd_t = 0x03; }
}
if ( ble_device_nr == 2 ) {
if ( ! id(switch_powerout_2_1).state && ! id(switch_powerout_2_2).state ) { ble_cmd_t = 0x00; }
if ( id(switch_powerout_2_1).state && ! id(switch_powerout_2_2).state ) { ble_cmd_t = 0x01; }
if ( ! id(switch_powerout_2_1).state && id(switch_powerout_2_2).state ) { ble_cmd_t = 0x02; }
if ( id(switch_powerout_2_1).state && id(switch_powerout_2_2).state ) { ble_cmd_t = 0x03; }
}
id(ble_command_simple).execute(ble_device_nr,0x0E,ble_cmd_t);
if (ble_cmd_t == 0x00) { ESP_LOGD("set_power_out", "Device %i - %s", ble_device_nr,"1 OFF / 2 OFF"); }
if (ble_cmd_t == 0x01) { ESP_LOGD("set_power_out", "Device %i - %s", ble_device_nr,"1 ON / 2 OFF"); }
if (ble_cmd_t == 0x02) { ESP_LOGD("set_power_out", "Device %i - %s", ble_device_nr,"1 OFF / 2 ON"); }
if (ble_cmd_t == 0x03) { ESP_LOGD("set_power_out", "Device %i - %s", ble_device_nr,"1 ON / 2 ON"); }
- id: ble_passthrough
parameters:
ble_device_nr: int
switch_cmd: bool
then:
- logger.log:
format: "PV2 Passthrough %i : %i"
args: [ble_device_nr,switch_cmd]
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x0D
ble_cmd_parm: !lambda return switch_cmd;
- id: ble_set_dod
parameters:
ble_device_nr: int
dod: int
then:
- logger.log:
format: "set DOD: %i"
args: [ 'dod' ]
- if:
condition:
lambda: 'return ( dod <= 100 && dod >= 10);'
then:
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x0B
ble_cmd_parm: !lambda return dod;
- id: ble_set_discharge_treshold
parameters:
ble_device_nr: int
discharge: int
then:
- logger.log:
format: "set discharge level: %i"
args: [ 'discharge' ]
- if:
condition:
lambda: 'return ( discharge <= 500 && discharge >= 1);'
then:
- script.execute:
id: ble_command_simple
ble_device_nr: !lambda return ble_device_nr;
ble_cmd: 0x0C
ble_cmd_parm: !lambda return discharge;
- id: ble_notify_parse_test
parameters:
ble_device_nr: int
x: char[]
then:
- logger.log:
format: "runtime parse: %i"
args: [ 'ble_device_nr' ]
- lambda: |-
//if (id(internal_console_dbg)) {
ESP_LOGD("parse test", "x[3] = %i", x[3]);
for (auto b : x) {
ESP_LOGD("data test", "%.2x \t %i \t %c", b,b,b);
}
//}
- id: ble_notify_parse
parameters:
ble_device_nr: int
x: char[]
then:
- logger.log:
format: "runtime parse: %i"
args: [ 'ble_device_nr' ]
- lambda: |-
ESP_LOGD("notify_parse", "Device: %i", ble_device_nr);
if (id(internal_console_dbg)) {
ESP_LOGD("parse", "x[3] = %i", x[3]);
for (auto b : x) {
ESP_LOGD("data", "%.2x \t %i \t %c", b,b,b);
}
}
if (id(switch_debug_hexdump).state == true) {
ESP_LOG_BUFFER_HEXDUMP("hexdump", &x[0], x.size(), ESP_LOG_ERROR);
}
if ((std::count (x.begin(), x.end(), '_') == 16) || (std::count (x.begin(), x.begin() + 10, '_') == 3))
{
ESP_LOGD("main", "Data: cmd 0x0F");
int pos = 0;
int soc = 0;
int t1 = 0;
int t2 = 0;
float cv = 0.0;
float cmin = std::numeric_limits<float>::max();
float cmax = std::numeric_limits<float>::min();
float ct = 0.0;
int found = -1;
char delimiter = '_';
std::string xstr;
std::vector<float> cellV;
xstr.assign(x.begin(), x.end()); // copy values from vector into string xstr, deep copy
xstr = xstr + delimiter; // append delimiter to xstr
found = xstr.find(delimiter); // search for position of the first delimiter
while (found != -1) // loop until no more delimiter found
{
if(pos == 0) soc = atoi( xstr.substr(0, found).c_str()); // pos 0 don't care
if(pos == 1) t1 = atoi( xstr.substr(0, found).c_str()); // pos 1 get int value of temperature sensor 1
if(pos == 2) t2 = atoi( xstr.substr(0, found).c_str()); // pos 2 get int value of temperature sensor 2
if((pos >= 3) && (pos <= 16)) // pos 3-16 parse pos for the 14 cell voltages
{
ct = atof( xstr.substr(0, found).c_str()); // get float value of pos x
cellV.push_back(ct);
//ESP_LOGD("cell voltage", ct.c_str());
cv += ct; // add actual value to var cv
if(ct > cmax) cmax = ct; // check for higher value as stored in cmax
if(ct < cmin) cmin = ct; // check for lower value as stored in cmin
}
xstr.erase(xstr.begin(), xstr.begin() + found + 1); // remove parsed string part
found = xstr.find(delimiter); // find next delimiter
pos++; // increment pos
}
/* calculate SoC from cell voltages
cell empty = 3.0 Volt = 0% SoC
cell full = 3.5 Volt = 100% SoC
*/
// float soccalc = (cv/14000 - 3.0) * 200;
float lowlimit = 3.0; // low voltage limit
float highlimit = 3.5; // high voltage limit
float soccalc = 100*((cv/14000)
- highlimit)/(highlimit - lowlimit) + 100; // equation of line with two points (0,lowlimit) (100,highlimit)
ESP_LOGD("cellVoltage","soc: %i, temp1: %i, temp2: %i",soc,t1,t2);
ESP_LOGD("cellVoltage","cell01: %.f, cell 02: %.f, cell 03: %.f, cell 04: %.f", cellV[0], cellV[1], cellV[2], cellV[3]);
ESP_LOGD("cellVoltage","cell05: %.f, cell 06: %.f, cell 07: %.f, cell 08: %.f", cellV[4], cellV[5], cellV[6], cellV[7]);
ESP_LOGD("cellVoltage","cell09: %.f, cell 10: %.f, cell 11: %.f, cell 12: %.f", cellV[8], cellV[9], cellV[10], cellV[11]);
ESP_LOGD("cellVoltage","cell13: %.f, cell 14: %.f", cellV[12], cellV[13]);
char mtopic[48];
for (int i=0; i<14; i++) {
snprintf(mtopic, 48,"b2500/%i/battery/cells/%02d/voltage",ble_device_nr,i+1);
//ESP_LOGD("cellVoltageX","%s : %f", mtopic, cellV[i]);
id(mqtt_client).publish(mtopic,to_string(cellV[i]/1000));
}
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/voltage",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(cv/1000));
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/cmin",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(cmin/1000));
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/cmax",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(cmax/1000));
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/cavg",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(cv/14000));
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/cdiff",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string((cmax-cmin)/1000));
snprintf(mtopic, 48,"b2500/%i/battery/cells/sum/soccalc",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(soccalc));
snprintf(mtopic, 48,"b2500/%i/battery/temp1",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(t1));
snprintf(mtopic, 48,"b2500/%i/battery/temp2",ble_device_nr);
id(mqtt_client).publish(mtopic,to_string(t2));
/*
id(bcsoc).publish_state(soc); // SOC from device (%)
id(bcsoccalc).publish_state(soccalc); // SOC calculated from cell voltages (%)
id(bctemp1).publish_state(t1); // Temperature 1 (°C)
id(bctemp2).publish_state(t2); // Temperature 2 (°C)
id(bccvsum).publish_state(cv/1000); // sum of cellvoltages = battery Voltage(V)
id(bccvmin).publish_state(cmin/1000); // lowest cellvoltage (V)
id(bccvmax).publish_state(cmax/1000); // highest cellvoltage (V)
id(bccvdiff).publish_state((cmax-cmin)/1000);
id(bccvavg).publish_state(cv/14000); // avarage cellvoltage (V)
*/
}
else if (x[3] == 0x03) {
ESP_LOGD("main", "Data: runtimeInfo ");
//sensor
// pv_level 1 und 2
/*
[6][7] PV-Eingangsleistung 1 (2Byte)
[8][9] PV-Eingangsleistung 2 (2Byte)
x[Y] | x[Z] << 8;
*/
int pvPower1 = x[6] | x[7] << 8;
int pvPower2 = x[8] | x[9] << 8;
if (ble_device_nr==1) { id(sensor_pv_power_in_1_1).publish_state(pvPower1); id(sensor_pv_power_in_1_2).publish_state(pvPower2); }
if (ble_device_nr==2) { id(sensor_pv_power_in_2_1).publish_state(pvPower1); id(sensor_pv_power_in_2_2).publish_state(pvPower2); }
// Batterie Stand in %
/*
[10][11] Verbleibende Batteriekapazität in Prozent (2Byte)
x[Y] | x[Z] << 8;
*/
int batRemain = x[10] | x[11] << 8 ;
if (ble_device_nr==1) { id(sensor_bat_remain_1).publish_state(batRemain / 10); }
if (ble_device_nr==2) { id(sensor_bat_remain_2).publish_state(batRemain / 10); }
// Entladen bei weniger als ??? Watt PV Eingang
/*
[19][20] Entladeschwelle(2Byte)
x[Y] | x[Z] << 8;
*/
int disCharge = x[19] | x[20] << 8;
if (ble_device_nr==1) { id(sensor_discharge_treshold_1).publish_state(disCharge); }
if (ble_device_nr==2) { id(sensor_discharge_treshold_2).publish_state(disCharge); }
// Füllstand des Akkus in Wh
/*
[22][23] Gesamtkapazität der Batterie (1Byte)
x[Y] | x[Z] << 8;
*/
int batCapacity = x[22] | x[23] << 8;
if (ble_device_nr==1) { id(sensor_bat_capacity_1).publish_state(batCapacity); }
if (ble_device_nr==2) { id(sensor_bat_capacity_2).publish_state(batCapacity); }
// Ausgangsleistung in Watt
/*
[24][25] Ausgangsleistung 1(1Byte)
[26][27] Ausgangsleistung 2(1Byte)
x[Y] | x[Z] << 8;
*/
int powerOut1 = x[24] | x[25] << 8;
int powerOut2 = x[26] | x[27] << 8;
if (ble_device_nr==1) { id(sensor_power_out_1_1).publish_state(powerOut1); id(sensor_power_out_1_2).publish_state(powerOut2); }
if (ble_device_nr==2) { id(sensor_power_out_2_1).publish_state(powerOut1); id(sensor_power_out_2_2).publish_state(powerOut2); }
// Geräte Version ( Firmware ? )
/*
[12] B2500 Geräteversion (1Byte)
0-255 ( ~ anzeige als /100 )
*/
float dev_version = x[12];
if (ble_device_nr==1) { id(sensor_device_version_1).publish_state(dev_version / 100); }
if (ble_device_nr==2) { id(sensor_device_version_2).publish_state(dev_version / 100); }
//
/*
[18] Dod (1Byte)
0-100 Prozentualer Anteil der Entladeleistung an der Nennleistung
*/
int dod_level = x[18];
if (ble_device_nr==1) { id(sensor_dod_1).publish_state(dod_level); }
if (ble_device_nr==2) { id(sensor_dod_2).publish_state(dod_level); }
// binary sensor / bool
// pv 1 und 2 in
/*
[x4] PV IN 1 Zustand (1Byte)
[x5] PV IN 2 Zustand (1Byte)
0x00 (off)
0x01 (Aufladung)
0x02 (transparent für Wechselrichter)
*/
if (ble_device_nr==1) {
if( x[4] == 0x00 ) { id(bool_pv_active_1_1).publish_state(false);id(bool_pv_transparent_1_1).publish_state(false); }
if( x[4] == 0x01 ) { id(bool_pv_active_1_1).publish_state(true); id(bool_pv_transparent_1_1).publish_state(false); }
if( x[4] == 0x02 ) { id(bool_pv_active_1_1).publish_state(true); id(bool_pv_transparent_1_1).publish_state(true); }
if( x[5] == 0x00 ) { id(bool_pv_active_1_2).publish_state(false);id(bool_pv_transparent_1_2).publish_state(false); }
if( x[5] == 0x01 ) { id(bool_pv_active_1_2).publish_state(true); id(bool_pv_transparent_1_2).publish_state(false); }
if( x[5] == 0x02 ) { id(bool_pv_active_1_2).publish_state(true); id(bool_pv_transparent_1_2).publish_state(true); }
}
if (ble_device_nr==2) {
if( x[4] == 0x00 ) { id(bool_pv_active_2_1).publish_state(false);id(bool_pv_transparent_2_1).publish_state(false); }
if( x[4] == 0x01 ) { id(bool_pv_active_2_1).publish_state(true); id(bool_pv_transparent_2_1).publish_state(false); }
if( x[4] == 0x02 ) { id(bool_pv_active_2_1).publish_state(true); id(bool_pv_transparent_2_1).publish_state(true); }
if( x[5] == 0x00 ) { id(bool_pv_active_2_2).publish_state(false);id(bool_pv_transparent_2_2).publish_state(false); }
if( x[5] == 0x01 ) { id(bool_pv_active_2_2).publish_state(true); id(bool_pv_transparent_2_2).publish_state(false); }
if( x[5] == 0x02 ) { id(bool_pv_active_2_2).publish_state(true); id(bool_pv_transparent_2_2).publish_state(true); }
}
// pv 2 durchleiten
/*
[13] Einstellung des Ladevorgangs (1Byte)
0x00 (PV1 Aufladung PV2 Durchleitung)
0x01 (Volles Laden und Entladen)
*/
if (ble_device_nr==1) {
if( x[13] == 0x00 ) { id(switch_pv2_passthrough_1).turn_on(); }
if( x[13] == 0x01 ) { id(switch_pv2_passthrough_1).turn_off(); }
}
if (ble_device_nr==2) {
if( x[13] == 0x00 ) { id(switch_pv2_passthrough_2).turn_on(); }
if( x[13] == 0x01 ) { id(switch_pv2_passthrough_2).turn_off(); }
}
// RESERVED ( wifi / mqtt )
/*
[15] Reserve(1Byte)
0x00 wifi funktioniert nicht
0x01 wifi ok, mqtt nicht verbunden
0x02 wifi ok, mqtt connect ok
??? 0x03 wifi ok, mqtt1 connect ok, mqtt2 connect ok
maybe wifi / mqtt
00 = false / false
01 = true / false
02 = false / true
03 = true / true
-------
first part means not wifi connected ?!?!?
00 = ??? / mqtt not connected
01 = ??? / mqtt not connected
02 = ??? / mqtt connected
03 = ??? / mqtt connected
*/
// wifi and mqtt, 03 maybe webserver
if (ble_device_nr==1) {
if( x[15] == 0x00 ) { id(bool_wifi_ok_1).publish_state(false); id(bool_mqtt1_ok_1).publish_state(false); }
if( x[15] == 0x01 ) { id(bool_wifi_ok_1).publish_state(true); id(bool_mqtt1_ok_1).publish_state(false);}
if( x[15] == 0x02 ) { id(bool_wifi_ok_1).publish_state(false); id(bool_mqtt1_ok_1).publish_state(true); }
if( x[15] == 0x03 ) { id(bool_wifi_ok_1).publish_state(true); id(bool_mqtt1_ok_1).publish_state(true); }
}
if (ble_device_nr==2) {
if( x[15] == 0x00 ) { id(bool_wifi_ok_2).publish_state(false); id(bool_mqtt1_ok_2).publish_state(false); }
if( x[15] == 0x01 ) { id(bool_wifi_ok_2).publish_state(true); id(bool_mqtt1_ok_2).publish_state(false); }
if( x[15] == 0x02 ) { id(bool_wifi_ok_2).publish_state(false); id(bool_mqtt1_ok_2).publish_state(true); }
if( x[15] == 0x03 ) { id(bool_wifi_ok_2).publish_state(true); id(bool_mqtt1_ok_2).publish_state(true); }
}
// power 1 und 2 enabled/disabled
/*
[14] Entlade-Modus / Enabled (1Byte)
0x00 OUT1&OUT2 Sperren
0x01 nur OUT1 Freigabe
0x02 nur OUT2 Freigabe
0x03 OUT1&OUT2 Freigabe
*/
if (ble_device_nr==1) {
if( x[14] == 0x00 ) { id(switch_powerout_1_1).turn_off(); id(switch_powerout_1_2).turn_off();}
if( x[14] == 0x01 ) { id(switch_powerout_1_1).turn_on(); id(switch_powerout_1_2).turn_off();}
if( x[14] == 0x02 ) { id(switch_powerout_1_1).turn_off(); id(switch_powerout_1_2).turn_on(); }
if( x[14] == 0x03 ) { id(switch_powerout_1_1).turn_on(); id(switch_powerout_1_2).turn_on(); }
}
if (ble_device_nr==2) {
if( x[14] == 0x00 ) { id(switch_powerout_2_1).turn_off(); id(switch_powerout_2_2).turn_off();}
if( x[14] == 0x01 ) { id(switch_powerout_2_1).turn_on(); id(switch_powerout_2_2).turn_off();}
if( x[14] == 0x02 ) { id(switch_powerout_2_1).turn_off(); id(switch_powerout_2_2).turn_on(); }
if( x[14] == 0x03 ) { id(switch_powerout_2_1).turn_on(); id(switch_powerout_2_2).turn_on(); }
}
// power 1 und 2 active
/*
[16] Ausgang Port 1 Status (1Byte)
[17] Ausgang Port 2 Status (1Byte)
0x00(Aus)
0x01(Entladung)
*/
if (ble_device_nr==1) {
if( x[16] == 0x00 ) { id(bool_power_active_1_1).publish_state(false);}
if( x[16] == 0x01 ) { id(bool_power_active_1_1).publish_state(true); }
if( x[17] == 0x00 ) { id(bool_power_active_1_2).publish_state(false);}
if( x[17] == 0x01 ) { id(bool_power_active_1_2).publish_state(true); }
}
if (ble_device_nr==2) {
if( x[16] == 0x00 ) { id(bool_power_active_2_1).publish_state(false);}
if( x[16] == 0x01 ) { id(bool_power_active_2_1).publish_state(true); }
if( x[17] == 0x00 ) { id(bool_power_active_2_2).publish_state(false);}
if( x[17] == 0x01 ) { id(bool_power_active_2_2).publish_state(true); }
}
// zusatzakku 1 und 2
/*
[28] Ist Netzgerät 1 angeschlossen (1Byte)
[29] Ist Netzgerät 2 angeschlossen (1Byte)
0x00(Kein Akkupack angeschlossen)
0x01(Verbinden Sie das Netzteil)
*/
if (ble_device_nr==1) {
if( x[28] == 0x00 ) { id(bool_extern_connected_1_1).publish_state(false);}
if( x[28] == 0x01 ) { id(bool_extern_connected_1_1).publish_state(true); }
if( x[29] == 0x00 ) { id(bool_extern_connected_1_2).publish_state(false);}
if( x[29] == 0x01 ) { id(bool_extern_connected_1_2).publish_state(true); }
}
if (ble_device_nr==2) {
if( x[28] == 0x00 ) { id(bool_extern_connected_2_1).publish_state(false);}
if( x[28] == 0x01 ) { id(bool_extern_connected_2_1).publish_state(true); }
if( x[29] == 0x00 ) { id(bool_extern_connected_2_2).publish_state(false);}
if( x[29] == 0x01 ) { id(bool_extern_connected_2_2).publish_state(true); }
}
if (ble_device_nr==1) {
auto call_21 = id(txt_scene_1).make_call();
if( x[21] == 0x00 ) { call_21.set_value("Tag"); }
if( x[21] == 0x01 ) { call_21.set_value("Nacht"); }
if( x[21] == 0x02 ) { call_21.set_value("Morgens/Abends"); }
call_21.perform();
}
if (ble_device_nr==2) {
auto call_21 = id(txt_scene_2).make_call();
if( x[21] == 0x00 ) { call_21.set_value("Tag"); }
if( x[21] == 0x01 ) { call_21.set_value("Nacht"); }
if( x[21] == 0x02 ) { call_21.set_value("Morgens/Abends"); }
call_21.perform();
}
if (ble_device_nr==1) {
auto call_30 = id(txt_region_1).make_call();
if( x[30] == 0x00 ) { call_30.set_value("EU"); }
if( x[30] == 0x01 ) { call_30.set_value("China"); }
if( x[30] == 0x02 ) { call_30.set_value("non-EU"); }
call_30.perform();
}
if (ble_device_nr==2) {
auto call_30 = id(txt_region_2).make_call();
if( x[30] == 0x00 ) { call_30.set_value("EU"); }
if( x[30] == 0x01 ) { call_30.set_value("China"); }
if( x[30] == 0x02 ) { call_30.set_value("non-EU"); }
call_30.perform();
}
}
else if (x[3] == 0x04) {
ESP_LOGD("main", "Data: deviceInfo ");
//for (auto b : x) {
// ESP_LOGD("data", "%i", b);
//}
// 's<#?type=<5>,id=<24>,mac=<12>t'
// ESP_LOGD("data", "%s", vType);
int data_len = x.size();
unsigned char vType[8];
for (int i=9;i<14;i++) {
vType[i-9] = x[i];
}
vType[5] = 0x00;
unsigned char vID[32];
for (int i=18;i<42;i++) {
vID[i-18] = x[i];
}
vID[24]=0x00;
unsigned char vMac[16];
for (int i=47;i<59;i++) {
vMac[i-47] = x[i];
}
vMac[12] = 0x00;
ESP_LOGD("deviceInfo", "%i: %s [%s] %s", data_len,vType,vMac,vID);
std::string sType(reinterpret_cast<char*>(vType));
std::string sID(reinterpret_cast<char*>(vID));
std::string sMac(reinterpret_cast<char*>(vMac));
if (ble_device_nr==1) { id(txt_A01_1).publish_state(sType); id(txt_A02_1).publish_state(sID); id(txt_A03_1).publish_state(sMac); }
if (ble_device_nr==2) { id(txt_A01_2).publish_state(sType); id(txt_A02_2).publish_state(sID); id(txt_A03_2).publish_state(sMac); }
}
// get wifi info - "admin mode" only
else if (x[3] == 0x08) {
ESP_LOGD("main", "Data: wifiInfo ");
int data_len = x.size();
unsigned char vSSID[32];
for (int i=4;i<data_len-1;i++) {
vSSID[i-4] = x[i];
}
vSSID[data_len-5] = 0x00;
ESP_LOGD("deviceInfo", "%i: %s", data_len,vSSID);
std::string sSSID(reinterpret_cast<char*>(vSSID));
if (ble_device_nr==1) { id(txt_A11_1).publish_state(sSSID); }
if (ble_device_nr==2) { id(txt_A11_2).publish_state(sSSID); }
for (auto b : x) {
ESP_LOGD("data", "%x \t %i \t %x", b,b,b);
}
}
else if (x[3] == 0x30) {
ESP_LOGD("main", "Data: cmd 0x30 ");
int data_len = x.size();
int data_pos = 0;
int rxor = 0;
for (int i=0;i<data_len;i++) {
rxor = rxor ^ x[i];
}
/*
//if( rxor != id(cmd30_xor_last_1) ) {
ESP_LOGD("data 30 - raw" , "Device %i",ble_device_nr);
ESP_LOGD("data 30 - raw" , "0x%.2x 0x%.2x 0x%.2x 0x%.2x", x[0], x[1], x[2], x[3]);
for(int i=4;i<data_len-1;i++) {
ESP_LOGD("data 30 - raw" , "0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x 0x%.2x", x[i], x[i+1], x[i+2], x[i+3], x[i+4],x[i+5],x[i+6],x[i+7],x[i+8]);
i += 8;
}
//ESP_LOGD("data 30 - raw" , " ");
id(cmd30_xor_last_1) = rxor;
//}
*/
}
/*
else if (x[3] == 0x30) {
ESP_LOGD("main", "Data: cmd 0x30");
int data_len = x.size();
for(int i=0;i<data_len;i++) {
int d1 = x[i];
ESP_LOGD("data 30" , "%x \t %i \t %c" , d1, d1, char(d1));
}
}
*/
// debug ???
else if (x[3] == 0x01) {
ESP_LOGD("main", "Data: cmd 0x01");
int data_len = x.size();
for(int i=0;i<data_len;i++) {
int d1 = x[i];
ESP_LOGD("data 01" , "%x \t %i \t %c" , d1, d1, char(d1));
}
}
else if (x[3] == 0x81) {
ESP_LOGD("main", "Data: cmd 0x81");
int data_len = x.size();
for(int i=0;i<data_len;i++) {
int d1 = x[i];
ESP_LOGD("data 81" , "%x \t %i \t %c" , d1, d1, char(d1));
}
}
else {
/*int data_len = x.size();
for(int i=0;i<data_len;i++) {
int d1 = x[i];
ESP_LOGD("unknown" , "%x \t %i \t %c" , d1, d1, char(d1));
}
*/
ESP_LOG_BUFFER_HEXDUMP("hexdump", &x[0], x.size(), ESP_LOG_ERROR);
}
- id: power_zero
then:
### Nulleinspeisung - Powerzero by neromatrix
### - mqtt only adaption by noone2k
### first attempt, use at your own risk !
### Ver. 0.01m
- lambda: |-
if(id(switch_opendtu_limit).state)
{
int ptu_min_value = 5;
int ptu_max_value = id(mqtt_opendtu_limit_max).state; // 50; // <- nax rel value -> id(npw2500_zeropower_max_powerlimit_rel).state;
int ptu_limit = 0;
int ptu_max_power = 900; // max:2 (x:4*2 for 4port using 2port)
int grid_to_ptu_ratio = ptu_max_power/100;
int grid_min_value = 20;
static int ptu_old_limit = 0;
/*
<- actual power mqtt -> prev. int(id(npw2500_grid_power).state);
keep over grid_min_value
*/
int grid_value = int(id(mqtt_grid_power).state) - grid_min_value;;
ptu_limit = grid_value / grid_to_ptu_ratio + ptu_old_limit;
if(ptu_limit > ptu_max_value) ptu_limit = ptu_max_value;
if(ptu_limit < ptu_min_value) ptu_limit = ptu_min_value;
// change only if diff more than +/-1%
if ( ptu_limit - ptu_old_limit > 1 || ptu_old_limit - ptu_limit > 1 ) {
ESP_LOGD("npw2500","PowerZero PTU old limit %d, PTU new limit %d, Grid value %d " ,ptu_old_limit, ptu_limit, grid_value);
ptu_old_limit = ptu_limit;
//char mtopic[64];
//snprintf(mtopic, 64,"openDTU/XXXXXXXXXXX/cmd/limit_persistent_relative");
//id(mqtt_client).publish(mtopic,to_string(ptu_limit));
id(mqtt_opendtu_limit).publish_state(ptu_limit);
}
}
@Fuxifux
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Fuxifux commented Nov 2, 2024

Hi an alle !

Hab nochmal ne Frage an alle die per Netzgerät laden und zwar steckt ihr die Kabeln immer physikalisch um zum Laden oder habt ihr da so eine art zweipoligen Wechselschalter ?

@knickohr
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Kann mir mal jemand sagen warum es bei fast jeder Abfrage zu diesen Warnings kommt. Ist da was faul ?

2024-11-12 19:01:21 b2500-1 [W][component:238]: Components should block for at most 30 ms.
2024-11-12 19:01:20 b2500-1 [W][component:237]: Component esp32_ble took a long time for an operation (53 ms).
2024-11-12 19:01:16 b2500-1 [W][ble_sensor:078]: Error reading char at handle 21, status=2
2024-11-12 19:01:15 b2500-1 handle error: do nothing :)

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