Table of Contents

E+E Differential Pressure Sensor driver

Description

This driver is design to allow communication with E+E Elektronik's EE610 pressure differential sensor, via the ezeio MkII's Modbus serial port.


Settings (center panel)

Name - The name is up to the user. Our suggestion is to choose a naming convention that makes the viewing the device list intuitive. Such as referring to the sensor and/or application. Keep the name short as it will be combined with the register name to create the default “Field” name (if added to “Fields”)

Active Check box - Check this box and “Save changes” to run the driver. The driver program can be suspended by unchecking the box and clicking on “Save changes”.

User Notes - This space can be used to store information specific to the device and your application, such as: location, wiring, scaling, etc.

eze System Notes - In this space we provide: wiring instructions, product image, product details.


Input terminal - Select the ezeio input terminal connected to the EE610's output signal.

Sensor range setting - From the drop-down menu, select the pressure differential range that matches the DIP switch setting on the sensor.

-100 to +100 Pa
-50 to +50 Pa
-25 to +25 Pa
0 to 100 Pa

Zero adjust (Pa x10) - Enter the desired offset value (in Pascals times 10) to adjust to zero.


Status & Registers (right panel)

Device Status

Driver info - Typically this is the name from the program file

Driver updated/version - Date loaded or updated and the version of the driver

Battery & Signal - Signal indicates the progress through the script. If driver fails to operate, signal number indicates progress

Driver status - Color and text of status bubbles give a quick visual reference of Communication, Operation, and Application

Communication - Com count indicates number of successful and unsuccessful data packets received


Available registers

  1. Differential pressure in Pascal (Pa)
  2. Differential pressure in millibar (mbar)
  3. Differential pressure in inches of water column (in WC)
  4. Differential pressure in millimeters of water column (mm H2O)
  5. Differential pressure in pounds per square inch (psi)