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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);
}
}
@helmi55
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helmi55 commented Oct 24, 2024

Hallo guten Abend in die Runde,
mein System lief die letzten Monate sehr schön rund.
Plötzlich ist mir aufgefallen das die Batterie entlädt obwohl sie nur 15% hat?
Gibts diese Projekt nicht mehr?
https://gist.github.com/neromatrix/6ec812f35418c4b38ebbad4e92cac888
Ist da was an mir vorbeigezogen?

Danke
Gruß
Helmut

@vogty79
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vogty79 commented Oct 25, 2024

Habe die yaml jetzt mal bearbeitet das um 23:00 Uhr der Timer 1 wieder aktiviert wird mal sehen ob es klappt

Ja klappt das ist dann schonmal gut

@noone2k
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Author

noone2k commented Oct 27, 2024

@vogty79

muss mal schauen, warum das setzen der timer per mqtt nicht funtkioniert, wenn die zeit dafür übrig ist ...

sry. war/bin dieses wochenende anderweitig beschäftigt ...

u.a. heute mit nem "neuen" hmb ...
hatte da paar anlaufschwieirigkeiten, da das akku pack unter 10V war ... und musste extern etwas aufladen ...
wenn das akku pack zuniedrig ist, liefert das bms keine daten.
auch keine temperatur .... bzw. wird dann mit 0 grad interpretiert ....
d.h. der kann nicht laden ...

vllt. nur ein zufall, aber ich meine irgendwo gelesen zu haben, das die modelle jetzt eine 0°C ladeeinstellung bekommen sollen.
das hier wäre zumindestens eine logische erklärung, warum das erlaubt werden soll, zumindestens eine etwas sinnvollere,
als das aufeinmal ein heizpad aus dem nichts entsteht oder das der hersteller absichtlich eine obsoleszenz herbeiführen will 😁

das teil hat aber noch andere auffälligkeiten, wo ich mal nochmal etwas genauer schauen muss.

//edit, dazu nochmal ein kurzes errorlog ... und damit wäre die frage auch beantwortet,
ob da die ntc auch arbeiten bzw. einen effekt haben ... ( in der bei mir genutzten hw/fw kombi ... )

18:22:55 [I] [errorlog:1156] 0 - 1970-01-01 00:00:00 - Device startup : 0
18:22:55 [I] [errorlog:1156] 0 - 1970-01-01 00:00:00 - Device startup : 0
18:22:55 [I] [errorlog:1156] 51 - 1970-01-01 00:00:10 - BMS charging low-temperature protection : 0
18:22:55 [I] [errorlog:1156] 78 - 1970-01-01 00:00:24 - MQTT connection successful : 1
18:22:55 [I] [errorlog:1156] 86 - 2024-10-25 14:15:44 - HTTP POST error : 0
18:22:55 [I] [errorlog:1156] 0 - 1970-01-01 00:00:00 - Device startup : 0
18:22:55 [I] [errorlog:1156] 0 - 1970-01-01 00:00:00 - Device startup : 0
18:22:55 [I] [errorlog:1156] 42 - 1970-01-01 00:00:05 - Register notification undervoltage : 2
18:22:55 [I] [errorlog:1156] 78 - 1970-01-01 00:00:20 - MQTT connection successful : 1
18:22:55 [I] [errorlog:1156] 43 - 1970-01-01 00:00:20 - Under voltage condition enters sleep mode : 39141
18:22:55 [I] [errorlog:1156] 43 - 1970-01-01 00:00:15 - Under voltage condition enters sleep mode : 41170
18:22:55 [I] [errorlog:1156] 56 - 1970-01-01 00:00:05 - Start charging and learning : 0
18:22:55 [I] [errorlog:1156] 78 - 1970-01-01 00:00:25 - MQTT connection successful : 1

@neromatrix
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Hallo guten Abend in die Runde, mein System lief die letzten Monate sehr schön rund. Plötzlich ist mir aufgefallen das die Batterie entlädt obwohl sie nur 15% hat? Gibts diese Projekt nicht mehr? https://gist.github.com/neromatrix/6ec812f35418c4b38ebbad4e92cac888 Ist da was an mir vorbeigezogen?

Danke Gruß Helmut

Hallo Helmut,
da sich ja an unserer Akkusoftware nichts geändert hat, bestand keinerlei Notwendigkeit etwas zu ändern.
Sollten wir eine neue Version bekommen, werde ich mir das natürlich anschauen.
LG

@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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