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// Compiles successfully on ESP32-S3_DevkitC_1, as of 08-06-23 through 12-17-23 using espressif board library 2.0.14 | |
// built from WebServer_not_working_yet-5a-1 which was built from ESP32_Solar_Controller20.4 | |
// this uses dedicated spi busses for the W5500 and the Max31865 ddevices. | |
// not certain the webserver is 100% stable. | |
// 01-14-24 added offsets to Dtemp4 +1.4, Dtemp2 +4.85 Heat relay is now operated off pin 48 being pulled high. Added BOILER_CIRC_RELAY on pin 47. | |
// 01-15-24; Added Boiler Circulator and programming to operate with Heating Circulator and DHW Circulator and depending on temperature or storageT (600 Gallon Tank) | |
// 01-15-24; increased DTemp 1-13 averages 2>3, increased Boiler Circ on 100, off 105. Added boiler circ to information webpage. | |
// 01-20-24; added recirculation valve and logic. Circ pump configured to only operate if Heat and DHW pumps are off now. | |
// 01-20-24; DHW Pump is now controlled from pin 36 and no longer off temperature. Updated webpage and adjusted formatt |
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
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//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
//Objectives: | |
/* Modify this code to be compatible with the ESP32-WROOM-32 Microcontoller using it's Integrated WIFI | |
* control and report to a webpage all aspects of my evacuated tube Solar Hot Water collector System. | |
* Use a PT1000 RTD sensor to monitor the evacuated tube manifold. | |
* Utilize eleven DS18B20 digital temperature sensors to read temperatures from various system components. | |
* Control 5 circulation pumps according to what mode has been selected for each pump (On, Off, Auto). | |
* Specify perameters for circulation pump cycling when the pump is in the "Auto" mode. | |
* provide radio buttons on the webpage to select what mode each pump is in "On, Off, Auto". | |
usable pins: 34-39 are inputs only. VP=36, VN=39. | |
external flash uses 6-11 - unusable |
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