pyPLC/doc/pyPlc.ini.template

# This is the template file pyPlc.ini.template.
# Copy this file in the same folder like the pyPlc.py, and rename it to pyPlc.ini

[general]
# mode can be either PevMode to use as car, or EvseMode to use as charger.
# This setting can be overruled by using the first command line parameter, to EvseMode:
# python pyPlc.py E
# or to PevMode:
# python pyPlc.py P
mode = PevMode

# Simulation without modem
# For development purposes, make it possible to run two instances (pev and evse) on one machine, without
# a modem connected.
# If this setting is set to false, nevertheless the simulation mode can be activated by the second command
# line parameter "S", e.g.
# python pyPlc.py E S
# or
# python pyPlc.py P S
is_simulation_without_modems = false

# The Ethernet interface. Usually eth0 on Raspberry.
# This setting is considered only on linux. 
eth_interface = eth0

# The Ethernet interface name on Windows. Something like
# \Device\NPF_{E4B8176C-8516-4D48-88BC-85225ABCF259}
eth_windows_interface_name = \Device\NPF_{E4B8176C-8516-4D48-88BC-85225ABCF259}

# If a display is connected via serial line, e.g. an WIFI-KIT-32 running the software from https://github.com/uhi22/SerialToOLED
# Possible values: yes or no
display_via_serial = yes

# LightBulbDemo turns on the relay with a short delay in the charging loop, to stabilize the voltage
# before the resistive load is connected.
# This mode is intended to test the PevMode without the need of a real battery, but a load like a light bulb,
# or kettle or similar.
# Possible values: yes or no
# For the use together with a real battery set this to "no".
light_bulb_demo = no

# SOC simulation.
# In PevMode, simulate a rising SOC while charging.
# Possible values: yes or no
soc_simulation = yes

# Device selection for the digital outputs, for CP state and power relays
# Possible options:
#  dieter: Serial controlled device, which controls the digital outputs. E.g. arduino from https://github.com/uhi22/dieter
#  beaglebone: GPIO pins of the beagleBone, as used in https://github.com/jsphuebner/pyPLC/tree/beaglebone
#  celeron55device: Serial controlled device as used in https://openinverter.org/forum/viewtopic.php?p=56192#p56192
digital_output_device = dieter
#digital_output_device = beaglebone
#digital_output_device = celeron55device


# Device to read the physically measured inlet voltage in PevMode
# Possible options:
#  dieter: The high-voltage dieter from https://github.com/uhi22/dieter, which is connected on serial port.
#  none: if no measurement is intended.
#  celeron55device: as used in https://openinverter.org/forum/viewtopic.php?p=56192#p56192
#analog_input_device = dieter
analog_input_device = none
#analog_input_device = celeron55device


# Criteria for ending the PreCharge phase in PevMode
# Possible options:
#  yes: use the EVSEPresentVoltage which is reported by the charger, to decide the end of the precharge
#  no: use the physically measured inlet voltage to decide the end of the precharge
use_evsepresentvoltage_for_precharge_end = yes

# Use the physically measured inlet voltage to show on display during the charge loop.
# If false, we are showing the EVSEPresentVoltage which is reported by the charger.
use_physical_inlet_voltage_during_chargeloop = no

# Voltage threshold for the end-of-precharge decision
# This is the maximum difference voltage between the charger voltage and the accu voltage. If the actual voltage
# difference is lower than this threshold, we will close the power relay, to connect the accu to the charger.
# Unit: volt
u_delta_max_for_end_of_precharge = 10

# Added by celeron55
# The serial port and baud rate used for communication. Used
# for serial devices like Dieter, OLED-Display and
# celeron55's measuring and switching device
# Examples:
#   /dev/ttyS1
#   auto
serial_port = auto
serial_baud = 19200

# The target voltage used in the CurrentDemandRequest.
# This is a value for first try-outs. Better would
# be if the BMS would provide the value. 
# 11 * 6 * 4.1V = 66 * 4.1V = 270V
charge_target_voltage = 270

# By using an external manager script, this is useful for splitting charging
# into separately logged sessions and avoiding logging when not connected to a
# charger.
# Recommended setting: True, and configure the starter.sh as service (Linux only).
# Deeper explanations here: https://github.com/uhi22/pyPLC/blob/master/doc/installation_on_raspberry.md#further-optimizations
exit_on_session_end = False

# If pyPLC does not find a local link address, this means there is no
# ethernet connection to the homeplug modem. This is a severe hardware
# error, so pyPLC will terminate. However, for special testing purposes this can
# be set to False. In this case, pyPLC will continue to run, even if there is no modem connected.
exit_if_no_local_link_address_is_found = True

# pyPLC in PevMode or ListenMode can detect the MAC address of the charger (SECC MAC) and 
# write it, together with the time stamp, into the file MacLog.txt
log_the_evse_mac_to_file = True

# Run test cases.
# Explanation in doc/testing_and_simulation.md
# Possible values:
#  No: No testcases are executed. Normal function as Evse or Pev.
#  Yes: Testcases are executed. The EvseMode will produce various errors for fault injection tests.
testsuite_enable = No

# Logging to UDP Syslog messages
# If this is activated, the pyPlc will send all logging messages also to the network interface,
# in form of UDP Syslog messages. For details see in udplog.py.
# For development purposes, set this to "Yes".
# For daily use, set this to "No". There is the risk that the broadcast UDP packets disturb the charger,
# which may lead to unwanted aborts.
udp_syslog_enable = Yes

# Set backend for obtaining charging parameters, we start with CHAdeMO CAN for now
# Need to make a simulator device and maybe a celeron device?
# Possible values:
#  chademo: pyPLC is used as bridge between a CCS charger and a CHAdeMO* car.
#           Limitations/explanations here: https://openinverter.org/forum/viewtopic.php?p=57894#p57894 and
#           https://openinverter.org/forum/viewtopic.php?t=1063 (Is it possible to make a CCS to CHAdeMO adapter?)
#  none: all other use cases
charge_parameter_backend = none

# REST callback for SoC states. Comment out to disable. Do not leave a trailing slash
# This parameter is used in EvseMode, to configure where the data which is retrieved
# from the vehicle shall go to. Discussed
# here: https://github.com/SmartEVSE/SmartEVSE-3/issues/25#issuecomment-1563519025
soc_callback_enabled = False
soc_callback_endpoint = http://1.1.1.1
# Fallback value to use if the vehicle does not support the EVEnergyCapacity.Value
soc_fallback_energy_capacity = 2700

# The URL where to send some logging data.
logging_url = http://enteryourhosthere.org/pyPlcLogging/addLog.php
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`# This is the template file pyPlc.ini.template.`
			`# Copy this file in the same folder like the pyPlc.py, and rename it to pyPlc.ini`

			`[general]`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# mode can be either PevMode to use as car, or EvseMode to use as charger.`
			`# This setting can be overruled by using the first command line parameter, to EvseMode:`
			`# python pyPlc.py E`
			`# or to PevMode:`
			`# python pyPlc.py P`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`mode = PevMode`

			`# Simulation without modem`
			`# For development purposes, make it possible to run two instances (pev and evse) on one machine, without`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# a modem connected.`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# If this setting is set to false, nevertheless the simulation mode can be activated by the second command`
			`# line parameter "S", e.g.`
			`# python pyPlc.py E S`
			`# or`
			`# python pyPlc.py P S`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`is_simulation_without_modems = false`

			`# The Ethernet interface. Usually eth0 on Raspberry.`
config: error handling and adding windows interface name to template 2023-05-26 07:11:19 +00:00			`# This setting is considered only on linux.`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`eth_interface = eth0`

config: error handling and adding windows interface name to template 2023-05-26 07:11:19 +00:00			`# The Ethernet interface name on Windows. Something like`
			`# \Device\NPF_{E4B8176C-8516-4D48-88BC-85225ABCF259}`
			`eth_windows_interface_name = \Device\NPF_{E4B8176C-8516-4D48-88BC-85225ABCF259}`

fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`# If a display is connected via serial line, e.g. an WIFI-KIT-32 running the software from https://github.com/uhi22/SerialToOLED`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# Possible values: yes or no`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`display_via_serial = yes`

			`# LightBulbDemo turns on the relay with a short delay in the charging loop, to stabilize the voltage`
			`# before the resistive load is connected.`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# This mode is intended to test the PevMode without the need of a real battery, but a load like a light bulb,`
			`# or kettle or similar.`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# Possible values: yes or no`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# For the use together with a real battery set this to "no".`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`light_bulb_demo = no`

			`# SOC simulation.`
			`# In PevMode, simulate a rising SOC while charging.`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# Possible values: yes or no`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00			`soc_simulation = yes`

			`# Device selection for the digital outputs, for CP state and power relays`
			`# Possible options:`
			`# dieter: Serial controlled device, which controls the digital outputs. E.g. arduino from https://github.com/uhi22/dieter`
			`# beaglebone: GPIO pins of the beagleBone, as used in https://github.com/jsphuebner/pyPLC/tree/beaglebone`
			`# celeron55device: Serial controlled device as used in https://openinverter.org/forum/viewtopic.php?p=56192#p56192`
			`digital_output_device = dieter`
			`#digital_output_device = beaglebone`
			`#digital_output_device = celeron55device`


			`# Device to read the physically measured inlet voltage in PevMode`
			`# Possible options:`
			`# dieter: The high-voltage dieter from https://github.com/uhi22/dieter, which is connected on serial port.`
			`# none: if no measurement is intended.`
			`# celeron55device: as used in https://openinverter.org/forum/viewtopic.php?p=56192#p56192`
			`#analog_input_device = dieter`
			`analog_input_device = none`
			`#analog_input_device = celeron55device`


			`# Criteria for ending the PreCharge phase in PevMode`
			`# Possible options:`
			`# yes: use the EVSEPresentVoltage which is reported by the charger, to decide the end of the precharge`
			`# no: use the physically measured inlet voltage to decide the end of the precharge`
			`use_evsepresentvoltage_for_precharge_end = yes`

			`# Use the physically measured inlet voltage to show on display during the charge loop.`
			`# If false, we are showing the EVSEPresentVoltage which is reported by the charger.`
			`use_physical_inlet_voltage_during_chargeloop = no`

			`# Voltage threshold for the end-of-precharge decision`
			`# This is the maximum difference voltage between the charger voltage and the accu voltage. If the actual voltage`
			`# difference is lower than this threshold, we will close the power relay, to connect the accu to the charger.`
			`# Unit: volt`
			`u_delta_max_for_end_of_precharge = 10`

			`# Added by celeron55`
			`# The serial port and baud rate used for communication. Used`
			`# for serial devices like Dieter, OLED-Display and`
			`# celeron55's measuring and switching device`
feature: exit if connectionLevel decreases from full. Raspberry docu improved. 2023-05-13 18:27:08 +00:00			`# Examples:`
			`# /dev/ttyS1`
			`# auto`
			`serial_port = auto`
			`serial_baud = 19200`
fix: pevmode: wait for contactors closed (in work). feature: more config options 2023-05-03 19:25:01 +00:00
			`# The target voltage used in the CurrentDemandRequest.`
			`# This is a value for first try-outs. Better would`
			`# be if the BMS would provide the value.`
			`# 11 * 6 * 4.1V = 66 * 4.1V = 270V`
			`charge_target_voltage = 270`

feature: integrated celeron55s hardwareinterface. Improved pev timeouts. 2023-05-10 18:56:48 +00:00			`# By using an external manager script, this is useful for splitting charging`
			`# into separately logged sessions and avoiding logging when not connected to a`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# charger.`
			`# Recommended setting: True, and configure the starter.sh as service (Linux only).`
			`# Deeper explanations here: https://github.com/uhi22/pyPLC/blob/master/doc/installation_on_raspberry.md#further-optimizations`
feature: integrated celeron55s hardwareinterface. Improved pev timeouts. 2023-05-10 18:56:48 +00:00			`exit_on_session_end = False`

configurable MAC logging and configurable ignoring missing modem. Docu preparation for GPS logging 2024-06-05 16:36:56 +00:00			`# If pyPLC does not find a local link address, this means there is no`
			`# ethernet connection to the homeplug modem. This is a severe hardware`
			`# error, so pyPLC will terminate. However, for special testing purposes this can`
			`# be set to False. In this case, pyPLC will continue to run, even if there is no modem connected.`
			`exit_if_no_local_link_address_is_found = True`

			`# pyPLC in PevMode or ListenMode can detect the MAC address of the charger (SECC MAC) and`
			`# write it, together with the time stamp, into the file MacLog.txt`
			`log_the_evse_mac_to_file = True`

docu: ini template extended with testsuite configuration 2023-05-16 17:20:28 +00:00			`# Run test cases.`
			`# Explanation in doc/testing_and_simulation.md`
			`# Possible values:`
			`# No: No testcases are executed. Normal function as Evse or Pev.`
			`# Yes: Testcases are executed. The EvseMode will produce various errors for fault injection tests.`
Feature: UdpLog configurable. Fix: Avoid overflow error on big udp log messages. 2023-05-24 19:05:41 +00:00			`testsuite_enable = No`

			`# Logging to UDP Syslog messages`
			`# If this is activated, the pyPlc will send all logging messages also to the network interface,`
			`# in form of UDP Syslog messages. For details see in udplog.py.`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# For development purposes, set this to "Yes".`
docu: typo fixed 2023-07-05 07:19:55 +00:00			`# For daily use, set this to "No". There is the risk that the broadcast UDP packets disturb the charger,`
docu: improved parameter description in ini template 2023-07-05 07:16:29 +00:00			`# which may lead to unwanted aborts.`
Feature: UdpLog configurable. Fix: Avoid overflow error on big udp log messages. 2023-05-24 19:05:41 +00:00			`udp_syslog_enable = Yes`
Added SoC callback feature. Fixed socket close error 2023-05-25 21:08:52 +00:00
added CHAdeMO backend 2023-06-20 10:43:03 +00:00			`# Set backend for obtaining charging parameters, we start with CHAdeMO CAN for now`
			`# Need to make a simulator device and maybe a celeron device?`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# Possible values:`
			`# chademo: pyPLC is used as bridge between a CCS charger and a CHAdeMO* car.`
			`# Limitations/explanations here: https://openinverter.org/forum/viewtopic.php?p=57894#p57894 and`
			`# https://openinverter.org/forum/viewtopic.php?t=1063 (Is it possible to make a CCS to CHAdeMO adapter?)`
			`# none: all other use cases`
configurable MAC logging and configurable ignoring missing modem. Docu preparation for GPS logging 2024-06-05 16:36:56 +00:00			`charge_parameter_backend = none`
added CHAdeMO backend 2023-06-20 10:43:03 +00:00
Added SoC callback feature. Fixed socket close error 2023-05-25 21:08:52 +00:00			`# REST callback for SoC states. Comment out to disable. Do not leave a trailing slash`
docu: added explanation for parameters in pyPlc.ini.template 2023-06-28 06:01:25 +00:00			`# This parameter is used in EvseMode, to configure where the data which is retrieved`
			`# from the vehicle shall go to. Discussed`
			`# here: https://github.com/SmartEVSE/SmartEVSE-3/issues/25#issuecomment-1563519025`
Added SoC callback feature. Fixed socket close error 2023-05-25 21:08:52 +00:00			`soc_callback_enabled = False`
config: error handling and adding windows interface name to template 2023-05-26 07:11:19 +00:00			`soc_callback_endpoint = http://1.1.1.1`
extend soc_callback hook with extra info 2023-06-26 17:38:45 +00:00			`# Fallback value to use if the vehicle does not support the EVEnergyCapacity.Value`
			`soc_fallback_energy_capacity = 2700`
feature: listenerNoGui logs the chargers MAC and GPS coords to http 2024-06-06 07:10:06 +00:00
			`# The URL where to send some logging data.`
			`logging_url = http://enteryourhosthere.org/pyPlcLogging/addLog.php`