Piezoresistive MEMS Pressure Sensors Growth

Welcome to All Sensors “Put the Pressure on Us” blog. This blog brings out pressure sensor aspects in a variety of applications inspired by headlines, consumer and industry requirements, market research, government activities, and you.

Piezoresistive MEMS Pressure Sensors Growth

A new report is available for pressure sensors from MarketResearch titled, “Pressure Sensor Market by Technology Advancement, Growth and Forecasts 2027.”

Over the forecast period, increasing technological advancements in microelectromechanical systems (MEMS) technology as well as the rising adoption of this technology in connected devices are key factors driving growth. Of the analyzed technologies of piezoresistive, electromagnetic, capacitive, resonant solid state, and optical, piezoresistive technology is expected to enjoy the highest share in the market during this timeframe. Factors inhibiting growth include technical problems in integration and packaging processes and lack of a standard fabrication process.

While the market is segmented into automotive, oil & gas, consumer electronics, medical, industrial sector, and others, consumer electronics are expected to register significant share of revenue growth over the forecast period.

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Working Pressure

Welcome to All Sensors “Put the Pressure on Us” blog. This blog brings out pressure sensor aspects in a variety of applications inspired by headlines, consumer and industry requirements, market research, government activities, and you.

Working Pressure

Numerous applications rely on pressure to work properly. The specific working or operating pressure may vary greatly between applications and it often must be maintained within a reasonably narrow window for optimum performance or to stay within a safe range or below a maximum value for safety. Working properly versus improperly and even under abnormal conditions has implications as well for pressure.

For pressure vessels, especially those in industrial applications, the terms maximum allowable working pressure (MAWP), and design pressure are used. The design pressure is determined from its maximum operating pressure (MOP) which is typically increased by some margin to handle potential pressure surges. In contrast, MAWP is the maximum pressure at which the vessel or equipment is allowed to function at a specific temperature and, in some cases, is determined by design codes.

Maximum Allowable Operating Pressure (MAOP) is another pressure limit, usually established by a government body, that is less than the MAWP. To be safe, the pressure could be monitored in the application to alert an operator or execute an automatic shutdown if an unsafe condition is reached.Operating Pressure Diagram

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Fan Static Pressure

Welcome to All Sensors “Put the Pressure on Us” blog. This blog brings out pressure sensor aspects in a variety of applications inspired by headlines, consumer and industry requirements, market research, government activities, and you.

Fan Static Pressure

Fan static pressure is one of the two parameters that define the performance of a fan. The other, and more common, is the volume of air the fan delivers per minute or per hour. Fan static pressure is the resistance pressure the fan has to blow against to move air in the desired direction.

For PC gamers, high airflow and high-pressure static fans are two distinct classifications. High-pressure static fans are used on radiators, central processing unit (CPU) and graphic processing unit GPU coolers, in front of hard drives, and other places where airflow might otherwise be blocked by an object. Because of their high-pressure capability, they can overcome the restrictions caused by the blockage.

Cooler Master Masterfan Pro 120 Air Pressure Fan

The Masterfan Pro 120 Air Pressure Fan is ideal for funneling concentrated air short distances at hot components or through tight spaces.  Image courtesy of Cooler Master.

In wood drying operations, kiln static pressure is not a constant and depends upon the performance of the fan chosen. For example, replacing a small fan generating 45,000 cubic feet per minute (cfm) at an estimated pressure of 0.5 inches H2O in a kiln with a larger fan rated at 60,000 cfm at 0.5 inches of H2O will not achieve 60,000 cfm. The actual air flow will be less than 60,000 cfm due to the rise in the static pressure – a situation that can cause complications in the end application.

In heating, ventilating and air conditioning (HVAC) systems, static pressure measures the effectiveness of the fan to the ducts in a particular installation.  If the static pressure is too high, the HVAC unit will have to work harder to push the air through the duct work.

In all of these low-pressure situations, an accurate microelectromechanical systems (MEMS) pressure sensor with a digital output, such as All Sensors DLLR Series, can address the manufacturing, installation verification or ongoing operation measurements.

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Fire Extinguisher Pressure

Welcome to All Sensors “Put the Pressure on Us” blog. This blog brings out pressure sensor aspects in a variety of applications inspired by headlines, consumer and industry requirements, market research, government activities, and you.

Fire Extinguisher Pressure

Caution: Contents under pressure. The typical residential or consumer fire extinguisher comes with this warning and a pressure gauge to ensure that it is in a safe zone and prepared for use should the occasion arise.

An extinguisher designed for use with a dry chemical only (ABC powder) like the one on the left in the figure is pressurized to 195 psi (1,344 kPa). Its gauge is in the green zone indicating that it is ready use. The clockwise red zone indicates an overcharged situation that could measure as much as 400 psi (2,758 kPa). A counterclockwise measurement below the safe zone, like the one on the right, means the extinguisher has lost charge and needs to be recharged to be effective. With only three pressure readings available (0, 195 and 400 psi), significant interpolation is required to determine the pressure if the reading is outside of the set range. Since the operating pressure is 195 psi and the pressure could go as high as 400 psi, tanks are pressure tested at an even higher level such as 585 psi (4,033 kPa) to ensure that they are safe. For this testing and other measurments in the manufacturing process, an accurate electronic measurement with high resolution, like the All Sensors CPM 602 Series, could provide the answer.

Fire Extinguisher

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