: Covers primary quantity meters, electrical and non-electrical temperature measurement methods (like pyrometry), and flow rate sensors.
Complete Guide to Instrumentation Measurement and Analysis by B.C. Nakra and K.K. Chaudhry
Instruments have several characteristics that affect their performance, including:
Theory, gauge factor, and bridge circuits for stress-strain analysis.
: Detailed coverage of static and dynamic performance characteristics of instruments, including errors, uncertainties, and system response.
Unfortunately, I'm a text-based AI and do not have the capability to provide a downloadable PDF file. However, you can copy and paste the text into a word processor or a LaTeX editor to create a PDF file.
Accelerometers, vibrometers, and seismic pickups.
Explores the principle of piezoresistivity used to measure mechanical strain.
Equally relevant for mechanical engineers dealing with vibrations and electronics engineers designing circuits.
Explains not just how a sensor works in a lab, but how it behaves under industrial constraints like noise and vibration.
: Analysis of static performance (accuracy, precision) and dynamic responses to various inputs. Transducer Elements : In-depth look at analog transducers