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Inputs

Inputs

Elements of page

  1. Analog inputs.

    Contains (starting from the top):

    • name setting fields
    • raw and converted readings
    • selection of functions for analog input or voltage range (more here)
    • calibration field and measurement multiplier (more here)
  2. Measurements of temperature, humidity and pressure.

    For each measurement, field for editing the name and current reading.

    There is also a field for calibration of pressure reading.

  3. Other sensors (CO2 and PM).

    For each measurement, field for editing the name and current reading.

  4. Differential readings.

    It contains a reading and a configuration form.

  5. Digital inputs.

    The upper part contains the name edit box and current status. In the bottom part there are configuration fields (more here).

Configuration of analog inputs

Functions of analog inputs

After selecting a specific sensor for the analog input, the range and gain will set themselves, and the output data will also be automatically converted (also when using communication protocols - HTTP, MQTT, SNMP).

For the input, you can set the gain after selecting the voltage range 3.3 V.

The range of useful measurements

4 ANALOG INPUTS WITH AN AMPLIFIER (INPA1-INPA4) - 2 input voltage ranges:

  • Range of measured voltages for the range 3.3 V

    • gain=1 - from 0 to 3300 mV
    • gain=10 - from 0 to 330 mV
    • gain=50 - from 0 to 60 mV
  • Range of measured voltages for the range 33 V

    • gain=1 - from 0 to 33000 mV
    • gain=10 - from 0 to 3300 mV
    • gain=50 - from 0 to 600 mV

    for voltages in the range 0รท5 mV, the measurement is not certain.

2 ANALOG INPUTS WITHOUT AMPLIFIER (INPA5-INPA6):

  • range of measured voltages from 0.1 to 3.3 V

Attention!

Applying voltage to the INPA5 input and switching on the INPA6 input may cause the same reading to appear on it as from the INPA5 input. However, connecting any voltage to INPA6 (or ground - 0V) will cause that it will show the correct value of the connected signal.

Calibration and multiplier

The calibration consists in that the entered value is added or subtracted directly from the converter measurement. This allows you to precisely compensate for the influence of, for example, long wires on the measured value.

The multiplier is the value by which the processed value is multiplied.

Calibration and multiplier allow to enter a simple function and thus obtain the actual value from many analog sensors with voltage output. The displayed value may be e.g. pressure or distance.

Configuration of digital inputs

Pull-Up

Determines whether the input is to be pulled up to high (factory set). It should be changed if the sensor has an activity output in this state.

Negation

Determines whether the logic of the digital input should be inverted, i.e. 0 will be high, and 1 will be low.

Bistable work

Selecting the checkbox with the value 0 results in entering the 2-state mode. Association of this input with the output in Events will give the following effect: the first low state (press) will change the output, the second press will return the output. The main application is the parallel control of the outputs automatically according to the preset parameters and the parallel use of the bell button. You can also control the lighting with use of the motion sensor or light barrier.

Selecting the checkbox with the entered value (number of seconds) will return the state of the associated service after this time.

Impulse time

Available in HW 3.5+

Option can be selected for INPD1 and INPD3. When selected it will count time between falling slopes while the INPD2 is 0 (INPD2 for counting times on INPD1 and INPD4 for INPD3).

The most recent value is visible in field below checkbox and it is also published via MQTT on prefix/imp_time1 and prefix/imp_time2 topics.