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Pressure Sensors

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SPL07-003

GoerTek

absolute I²C，SPI 1.7V 3.6V ±0.03KPa SMD-10P glue mount

Quantity: 30000

Ship Date: 5-10 working days

1+ $0.3347

100+ $0.3264

Ext. Price: $0.33

MOQ: 1

Mult: 1

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SPL16-001

GoerTek

Datasheet

absolute I²C 1.7V 3.6V 1100hPa ±3% SMD mount，glue mount

Quantity: 1791

Ship Date: 7-12 working days

1+ $3.666

5+ $3.2682

10+ $2.592

25+ $2.355

50+ $2.2587

100+ $2.1706

500+ $1.9933

1000+ $1.9273

Ext. Price: $3.66

MOQ: 1

Mult: 1

SPQ: 1

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SPL17-002

GoerTek

Datasheet

Differential，metering I²C 1.7V 3.6V 0Kpa~40Kpa ±0.015PSI (±0.1kPa) LGA-8 SMD mount，glue mount

Quantity: 1327

Ship Date: 7-12 working days

1+ $3.926

5+ $3.5074

10+ $2.7842

25+ $2.5305

50+ $2.4282

100+ $2.3343

500+ $2.1454

1000+ $2.0751

Ext. Price: $3.92

MOQ: 1

Mult: 1

SPQ: 1

Buy Now Add to cart

SPL06-001

GoerTek

Datasheet

Differential I²C，SPI 300hPa...1100hPa 1.7V 3.6V 1100hPa ±0.5% LGA SMD mount，glue mount 2.5mm*2mm*950μm

Quantity: 0

In Stock

Ext. Price:

MOQ: 1

Mult: 1

SPQ: 10000

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Pressure Sensors

Pressure sensors are devices that measure the pressure of a fluid or gas, typically expressed in terms of force per unit area. They are essential components in various industries and applications due to their ability to provide accurate and reliable data on pressure levels.

Definition:
A pressure sensor is a transducer that converts pressure, which can be force per unit area exerted in the direction of the normal force, into an electrical signal. This signal is then used for , controlling, or recording pressure in different systems.

Function:
The primary function of a pressure sensor is to detect and quantify the pressure exerted on it. This can involve measuring absolute pressure (the pressure relative to a perfect vacuum), gauge pressure (the pressure relative to atmospheric pressure), or differential pressure (the difference in pressure between two points). The sensor's output is usually an analog or digital signal that can be read by a control system or a device.

Applications:
1. Automotive: In car engines for tire pressure, fuel pressure, and oil pressure.
2. Medical: For blood pressure and in ventilators.
3. Industrial: In process control for pressure in pipelines, tanks, and reactors.
4. : For altitude and airspeed measurements.
5. HVAC: To control air pressure in heating, ventilation, and air conditioning systems.
6. Weather : To measure atmospheric pressure for weather forecasting.

Selection Criteria:
1. Type of Pressure: Choose a sensor that can measure the specific type of pressure (absolute, gauge, or differential).
2. Range: Select a sensor with a pressure range that covers the expected minimum and maximum pressures.
3. Accuracy: Consider the required accuracy of the pressure measurement for the application.
4. Response Time: For dynamic applications, a sensor with a fast response time is necessary.
5. Environment: Ensure the sensor is suitable for the environmental conditions, such as temperature, humidity, and potential exposure to chemicals.
6. Interface: The sensor should have a compatible output signal for the system it will be connected to (analog, digital, etc.).
7. Durability: The sensor should be robust enough to withstand the conditions it will be exposed to over time.
8. Cost: Consider the cost-effectiveness of the sensor for the intended application.

In summary, pressure sensors play a critical role in various industries by providing essential data on pressure levels. Their selection should be based on the specific requirements of the application, including the type of pressure, range, accuracy, response time, environmental conditions, and cost.
Please refer to the product rule book for details.