kopia lustrzana https://github.com/botheredbybees/kilnController
91 wiersze
3.0 KiB
Plaintext
91 wiersze
3.0 KiB
Plaintext
import logging
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########################################################################
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#
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# General options
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### Logging
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log_level = logging.INFO
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log_format = '%(asctime)s %(levelname)s %(name)s: %(message)s'
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### Server
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listening_ip = "0.0.0.0"
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listening_port = 8081
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### Cost Estimate
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kwh_rate = 0.28 # Rate in currency_type to calculate cost to run job
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currency_type = "AUD" # Currency Symbol to show when calculating cost to run job
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########################################################################
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#
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# GPIO Setup (BCM SoC Numbering Schema)
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#
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# Check the RasPi docs to see where these GPIOs are
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# connected on the P1 header for your board type/rev.
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# These were tested on a Pi B Rev2 but of course you
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# can use whichever GPIO you prefer/have available.
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### Outputs
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gpio_heat = 23 # Switches zero-cross solid-state-relay (was 11 initially)
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# I don't use the following two imputs for ceramics, but there here if you need them:
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gpio_cool = 10 # Regulates PWM for 12V DC Blower
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gpio_air = 9 # Switches 0-phase det. solid-state-relay
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heater_invert = 0 # switches the polarity of the heater control (was 0 initially)
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### Inputs
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gpio_door = 18 # another one I don't use, but might find useful one day
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### Thermocouple Adapter selection:
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# max31855 - bitbang SPI interface
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# max31855spi - kernel SPI interface
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# max6675 - bitbang SPI interface
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max31855 = 1
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max6675 = 0
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max31855spi = 0 # if you use this one, you MUST reassign the default GPIO pins
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### Thermocouple Connection (using bitbang interfaces)
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gpio_sensor_cs = 27
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gpio_sensor_clock = 22
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gpio_sensor_data = 17
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### Thermocouple SPI Connection (using adafrut drivers + kernel SPI interface)
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spi_sensor_chip_id = 0
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### amount of time, in seconds, to wait between reads of the thermocouple
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sensor_time_wait = 10
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# was .5 for solder reflow
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########################################################################
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#
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# PID parameters
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pid_ki = 0.1 # Integration
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pid_kd = 0.4 # Derivative
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pid_kp = 0.5 # Proportional
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########################################################################
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#
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# Simulation parameters
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sim_t_env = 25.0 # deg C
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sim_c_heat = 100.0 # J/K heat capacity of heat element
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sim_c_oven = 2000.0 # J/K heat capacity of oven
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sim_p_heat = 2000.0 # W heating power of oven
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sim_R_o_nocool = 1.0 # K/W thermal resistance oven -> environment
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sim_R_o_cool = 0.05 # K/W " with cooling
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sim_R_ho_noair = 0.1 # K/W thermal resistance heat element -> oven
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sim_R_ho_air = 0.05 # K/W " with internal air circulation
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########################################################################
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#
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# Time and Temperature parameters
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temp_scale = "c" # c = Celsius | f = Fahrenheit - Temperature inits used by thermocouple
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time_scale_slope = "m" # s = Seconds | m = Minutes | h = Hours - Slope displayed in temp_scale per time_scale_slope
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time_scale_profile = "m" # s = Seconds | m = Minutes | h = Hours - Enter and view target time in time_scale_profile
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