Pressure sensor presentation slides.pptx
Introduction
Pressure sensor's function is based on physical phenomenon. It can be used at least two different situation:
water, air or between two points of measurement.
Table of Contents
Table of Contents outline true absoluteUrl true style none exclude Table of Contents
Types of pressures and basic physics of pressure sensing
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Static pressure is a definition for physical pressure.
For example you would be skiing or walking somewhere and this sensor type will register your steps.
P (pressure) = F (force) / A (area), m^2)).
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Gauge pressure measurement is a subtype of differential pressure measurement. The idea is to compare pressure at any point to the current atmospheric pressure. The Gauge pressure measurement is not consistent because the atmospheric pressure varies with altitude so it cannot be used in critical measurements. Still gauge pressure sensors are used in tire pressure and blood pressure measurements. [14.]
Where to use pressure sensors?
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- Marine Industry: Especially on submarines it is very precise how much oxygen the crew has; pressure sensors regulate the amount. [14.]
Distributors in Finland
Because pressure sensors are used in so many things, Finland has an endless amount of vendors from small retailers to large distributors.
Piezoelectric transducers
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We chose as our Piezoelectric sensor a PiezoStar® Pressure Sensor Type 6125C. (36)
Transfer function
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Transfer function for piezoelectric transducer can be calculated as:
[4.]
Sensors sensitivity
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Sensitivity-33 pC/bar
Acceleration sensitivity:
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There are different kind of sensors on the market with different amount of bars. New piezo materials (PiezoStar crystal) inprove the sensors performance. [36.]
Other Characteristics
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Operating temperature range -20...350 C
Measurin range 0...300 bar
Natural frequence >70 kHz [36.]
Conducting for piezoelectric transducers:
Piezoelectric sensor component includes a microchip which sends information and he data from piezoelectric sensors can be collected by using voltmeter. The voltage is equivalent to load voltage which loads the capacitance of charging full.
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The system has some output noise which is approximately some hundreds of nV/sqrt(Hz). Noises are coming from voltage and current. [58; 69.]
Piezoelectric sensors are usually very stable so they don't need calibration after purchasing but in extreme conditions characteristics may change over time. In this case the sensors are usually sen to the manufacturer. [9; 1010; 11]
Materials and manufacturing technologies
Piezoelectric sensors can be made from many different materials with complicated manufacturing processes.
The PiezoStar® Pressure Sensor Type 6125C’s structure is made of crystalline, so it does not contain silicon. In piezoelectric sensors there are usually used either Nickel (Ni) or Copper (Cu) or both. Because both of the metals are chemical elements they are nonferrous. [6.]
For piezoelectric materials are usually used ceramics, but also crystal can appear as one. The materials are also very sensitive to temperature changes. The mostly used substances are Zinc oxide, Aluminum nitride and PZT. The manufacturing process is complex and long-lasting. In PiezoStar sensors there is mainly used Kistlers own PiezoStar material. More information is available in piezoelectric sensing article about this subject. [14.]
The materials which used while manufacturing PiezoStar product are new crystals, similar as gallium orthophosphate (GaPO4) or langasite (La3Ga5SiO14). it is required to use these materials because of high working temperature (450 °C, even 700 °C). [15.]
Plastic is not used as a material in this kind of sensors because it wouldn’t cope with the massive pressure. Metal is harder and can take the pressure so it is a good material to use in this case. Ceramics and crystal are easier to get piezoelectric that’s why they are in common use.
Kistler PiezoStar® Pressure Sensor has about 200 manufacturing steps before it will reliable sensor and ready to use. First phase of manufacturing process is X-raying and it is used to determine factor in the properties of the sensor element.
All components are checked and measured extremely precise: after milling it is cutted, lapped and coated. Lastly it is re-coated. Quartz and crystal components can be cutted and measured precisely. Then it is easy to design how small the sensor will be. The sensor must be well designed to use hard circumstances: high-speed phenomena and high temperature [16.]
Sources
- Pressure definition:, http://www.school-for-champions.com/science/pressure.htm#.U1ilsRDFJ8E
- Archimedes' Law: , http://www.auburn.edu/~nzk0001/pub/phys1600/10_archimedes.pdf
- Determining the density, http://physics.about.com/od/fluidmechanics/f/density.htm
- Preeti Jain, Pressure Sensors, http://www.engineersgarage.com/articles/pressure-sensors-types-working
- Robert E. Bicking, Fundamentals of Pressure Sensor Technology 1998, http://www.sensorsmag.com/sensors/pressure/fundamentals-pressure-sensor-technology-846
- PiezoStar® Pressure Sensor Datasheet by Kistler
- Piezoelectric Transducers and Applications, editor: Antonio Arnau Vives
- Eduardo Bartolome, Signal conditioning for piezoelectric sensors, http://www.ti.com/lit/an/slyt369/slyt369.pdf
- CONVENTIONAL CHARGE OUTPUT SENSORS, http://www.pcb.com/TechSupport/tech_signal
- Accuracy and Calibration Calibration, http://www.mmf.de/accuracy_and_calibration.htm
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- Composite materials, https://www.americanpiezo.com/products-services/composite-materials.html
- New Piezoelectric Materials Improve Sensor Performance, https://www.sem.org/PDF/kistler_PiezoStar.pdf
- Manufacturing and materials of piezoelectric sensor http://www.ama-science.org/proceedings/getFile/AQx2
- Manufacturing steps http://www.kistler.com/medias/sys_master/8812119097374/100-460e-12.10.pdf