YJJ SQ273-13103 Breathing MEMS Micro-Pressure Sensor Pressure Sensor

Product Description:

SQ273-13103 Breathing MEMS Micro-Pressure Sensor Pressure Sensor

Features:

A ventilator is a medical device used for or to replace natural breathing in the human body. It helps patients breathe by providing oxygen or air and is usually used in intensive care units or for patients requiring mechanical ventilation. Ventilators can deliver oxygen or air to the patient's respiratory tract through masks, tubes or intubations, and control indicators such as respiratory rate, tidal volume and inhalation-to-exhalation ratio by setting parameters to maintain the patient's normal respiratory function. Ventilators play an important role in treating diseases such as respiratory failure and acute respiratory distress syndrome.

A pressure sensor is a device capable of measuring the pressure changes of an object or medium and converting them into electrical signals for output. It has the following functions:

Pressure measurement: Pressure sensors can accurately measure the pressure of objects or media, such as the pressure of liquids, gases or solids.

2. Motion detection: Pressure sensors can detect pressure changes in objects or media and are used to monitor the movement or position changes of objects.

3. Strength monitoring: Pressure sensors can be used to monitor the pressure exerted on structures or devices to assess their load-bearing capacity or strength.

4. Flow control: Pressure sensors can be used to control the flow of liquids or gases and regulate the pressure in the flow system.

5. Safety Protection: Pressure sensors can be used to monitor overload pressure in equipment or systems, thereby triggering alarm or protection devices to ensure the safety of equipment and personnel.

6. Filtration monitoring: Pressure sensors can be used to monitor pressure changes in liquids or gases to determine the service life of filters or filter elements.

Overall, the main function of a pressure sensor is to measure pressure changes and convert them into electrical signals for output, thereby achieving functions such as pressure monitoring, control, and protection.

The characteristics of pressure sensors include the following aspects:

Precise measurement: Pressure sensors can measure pressure values within different ranges and convert them into corresponding electrical signals for output.

2. High sensitivity: The pressure sensor can detect minute pressure changes and respond quickly.

3. Wide working range: Pressure sensors can operate normally within a wide range of working pressures and can be applied to various scenarios.

4. High stability: During long-term use, the pressure sensor has excellent stability and reliability, and can maintain accurate measurement results.

5. Fast response time: The pressure sensor can quickly respond to changes in pressure and reflect the system status in real time.

6. Low power consumption: Pressure sensors can operate at low power consumption, which helps to extend battery life or reduce energy consumption.

7. Miniaturized design: Pressure sensors typically adopt miniaturized or compact designs, facilitating installation in confined Spaces or integration into other devices.

8. High reliability: Pressure sensors are typically made of durable materials and can withstand environmental and working conditions, featuring high reliability and a long service life.

9. Multiple output signals: Pressure sensors can interact and control data with other devices through different types of output signals, such as analog signals, digital signals or switch signals.

10. Easy to install and maintain: Pressure sensors usually have standardized interfaces or connection methods, which facilitate installation and maintenance and reduce the difficulty of operation and maintenance.

11. Specifications: