CI830 3BSE013252R1 Digital Drive Sensors

CI830 3BSE013252R1

Technical Parameters:

  • User defined tag-based programming for descriptive I/O naming
  • Simple-to-use instructions and Easy math to eliminate complex ladder logic rungs
  • Application tools for quick access to setup, programming, debugging and PAC control
  • Task Manager for quick and easy prioritization of Ladder Logic code
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Description

CI830 3BSE013252R1 Digital Drive Sensors


CI830 3BSE013252R1 Digital outputs are available in a variety of formats. Unlike analogue sensors, where the output value is a value that varies continuously over the entire output range, digital sensors have only two output values, either “0” or “1”. “. A flick switch (touch switch) is one of the simplest examples of a digital sensor. When not pressed, a flick switch is usually an open circuit with infinite impedance, and when pressed, it becomes a short circuit with zero impedance.

CI830 3BSE013252R1 When interfacing a digital sensor to a data capture device, it is important to consider a number of key factors that may affect the performance of the interface. As a result of technological advances, a wide variety of sophisticated digital sensors are available on the market, and today’s sensors are capable of generating a long series of switching state transitions. When using these sensors, the frequency characteristics of the output pulse train, and even the shape of the pulses, characterise the sensor’s measurements, thus making continuous measurements possible.

CI830 3BSE013252R1 classifies sensors according to the signal characteristics of the drive signal output from the sensor (there are five types), of which 45% of digital sensors characterise the output in terms of the switching state of the digital line, 35% characterise the output in terms of the frequency of the output signal, 12% characterise the output in terms of the duty cycle of the output signal, another 6% in terms of the time interval, and 2% in terms of the number of pulses.The output is characterised by the frequency of the output signal in 35 %, the duty cycle of the output signal in 12 %, the time interval in 6 % and the pulse number in 2 %.