1.3 Elements of a measurement system :
A measuring system exists to provide
information about the physical value of some variable being measured. In simple
cases, the system can consist of only a single unit that gives an output
reading or signal according to the magnitude of the unknown variable applied to
it. However, in more complex measurement situations, a measuring system
consists of several separate elements as shown in Figure 1.2. These compo[1]nents might be
contained within one or more boxes, and the boxes holding individual
measurement elements might be either close together or physically separate. The
term measuring instrument is commonly used to describe a measurement system,
whether it contains only one or many elements, and this term will be widely
used throughout this text.
The first element in any measuring
system is the primary sensor: this gives an output that is a function of the
measurand (the input applied to it). For most but not all sensors, this
function is at least approximately linear. Some examples of primary sensors are
a liquid-in-glass thermometer, a thermocouple and a strain gauge. In the case
of the mercury-in-glass thermometer, the output reading is given in terms of
the level of the mercury, and so this particular primary sensor is also a
complete measurement system in itself. However, in general, the primary sensor
is only part of a measurement system. The types of primary sensors available
for measuring a wide range of physical quantities are presented in Part 2 of
this book.
Variable conversion elements are
needed where the output variable of a primary transducer is in an inconvenient
form and has to be converted to a more convenient form. For instance, the
displacement-measuring strain gauge has an output in the form of a varying
resistance. The resistance change cannot be easily measured and so it is
converted to a change in voltage by a bridge circuit, which is a typical
example of a variable conversion element. In some cases, the primary sensor and
variable conversion element are combined, and the combination is known as a
transducer. Ł
Signal processing elements exist to
improve the quality of the output of a measure[1]ment
system in some way. A very common type of signal processing element is the
electronic amplifier, which amplifies the output of the primary transducer or
variable conversion element, thus improving the sensitivity and resolution of
measurement. This element of a measuring system is particularly important where
the primary transducer has a low output. For example, thermocouples have a
typical output of only a few millivolts. Other types of signal processing
element are those that filter out induced noise and remove mean levels etc. In
some devices, signal processing is incorporated into a transducer, which is
then known as a transmitter. Ł
In addition to these three components
just mentioned, some measurement systems have one or two other components,
firstly to transmit the signal to some remote point and secondly to display or
record the signal if it is not fed automatically into a feed[1]back control
system. Signal transmission is needed when the observation or application point
of the output of a measurement system is some distance away from the site of
the primary transducer. Sometimes, this separation is made solely for purposes
of convenience, but more often it follows from the physical inaccessibility or
envi[1]ronmental
unsuitability of the site of the primary transducer for mounting the signal presentation/recording
unit. The signal transmission element has traditionally consisted of single or
multi-cored cable, which is often screened to minimize signal corruption by
induced electrical noise. However, fibre-optic cables are being used in ever
increasing numbers in modern installations, in part because of their low
transmission loss and imperviousness to the effects of electrical and magnetic
fields.
The final optional element in a
measurement system is the point where the measured signal is utilized. In some
cases, this element is omitted altogether because the measure[1]ment is used as
part of an automatic control scheme, and the transmitted signal is fed directly
into the control system. In other cases, this element in the measurement system
takes the form either of a signal presentation unit or of a signal-recording
unit. These take many forms according to the requirements of the particular
measurement application, and the range of possible units is discussed more
fully in Chapter 11.
No comments:
Post a Comment
Tell your requirements and How this blog helped you.