Product information
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usbdrdaq.en r4
When selecting a sensor for an application you should consider the following:
1. Is the input 0-2.5 V?
2. Is the sensor Active or Passive? If Active then can it be powered by the USB
DrDAQ?
3. What is the output of the sensor? Can the sensor be plugged directly into the USB
DrDAQ?
4. Is the sensor already available on the USB DrDAQ, or are there more suitable
sensors out there?
2.10.3 Scaling
Sensor Scaling - Software
It is necessary to create a scaling file so that the software can extract details about
the sensor. Details on creating scaling files can be found in the
topic. Scaling in software also provides an opportunity to perform a
on the sensor, which can compensate for any manufacturing
irregularities.
Sensor Scaling - Hardware
With both these types of sensors it is essential that the USB DrDAQ displays an
accurate representation of the property to be measured. There are many factors to
take into account when designing scaling circuitry:
Sensitivity
The USB DrDAQ has 12-bit resolution over the 0 to 2.5 V input range. This means the
sensitivity is:
2500 mV / 2^12 = 0.611 mV
To make the most of the resolution, the signal output from the sensor should use as
much of the input range of the USB DrDAQ as possible.
Linearity
As illustrated below, not all sensors have a linear response.
Linear Response
An Example of Non-Linear
Response
A linear response is one whose output-versus-input graph is a straight line. An
example of this type of response is a photodiode.
Note:
a non-linear response curve cannot be calculated using a simple
y = ax + b
formula. An example of this type of response is an LDR.
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