Configuration displayed below corresponds to the identified chip.
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP8266 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
By default, this Peripheral is considered to be
Analog
. However, if this behavior is undesirable, deactivating the Analog
button will
make this input effectively behave as a Logical input. In this case, the input will assume a LOW
state if the voltage present on the respective pin is below a certain threshold,
and a HIGH
state otherwise.
learn more...
The analog Mapping stands for transforming the 10-bit ADC reading into any desired unit represented by the underlying analog output
using linear interpolation within the user-defined map. This map consists of ADC/Target Unit pairs.
learn more...
A Calibration constant added to the obtained mapped reading. This constant can be between -1000 and +1000 and have up to one decimal place.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...
The Hardware option specifies the physical device connected to the corresponding ESP32 GPIO pin and provides instructions to the software on how to interact with it.
learn more...