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Piezoelectric sensors on ventilators
- Categories:Technical knowledge
- Time of issue:2020-08-16 12:03
(Summary description)Everyone knows that piezoelectric transducers can be used in combination with many instruments to achieve different results, but you may not be sure in which areas they can be used, so let's look at how to use pressure transducers in a ventilator.
Piezoelectric sensors on ventilators
(Summary description)Everyone knows that piezoelectric transducers can be used in combination with many instruments to achieve different results, but you may not be sure in which areas they can be used, so let's look at how to use pressure transducers in a ventilator.
- Categories:Technical knowledge
- Time of issue:2020-08-16 12:03
- Views:
Everyone knows that piezoelectric sensors can be used in combination with many instruments to achieve different results, but you may not be sure in which areas they can be used, so let's look at how pressure sensors can be used in respiratory machines.
Piezoelectric sensors play an important role in respiratory equipment as they are responsible for converting physical values (such as airway pressure and flow rate) into differential signals. The signals generated by the air and oxygen flow sensors help the microprocessor to regulate the motor to regulate or maintain the air pressure required for the patient to inhale and exhale.
In other words, the pressure sensor constantly monitors the patient's breathing signal to control the action of the respirator and synchronise it with the person's breathing. The choice of piezoelectric sensor is therefore critical. Typically, these cost-effective linear sensors have large offsets and offset drifts, which can result in signals that are above or below proportional temperature changes.
The basic principle of the ventilator is to use intelligent detection methods to establish this pressure differential to enable a mandatory artificial breathing process. The ventilator must therefore have four basic functions, namely the sequential cycling of the lungs to expand, the conversion from inspiration to expiration, the expulsion of alveolar air and the conversion from expiration to inspiration.
It must therefore be able to provide the power to transport the gas, replacing the work of the human respiratory muscles; it can produce a certain respiratory rhythm, including the respiratory rate and the ratio of inspiration to expiration, replacing the function of the human respiratory central nervous system to govern the respiratory rhythm.
It can provide a suitable tidal volume (VT) or minute ventilation (MV) to meet the demands of respiratory metabolism; the gas supplied is preferably heated and humidified to replace the human nasal function and can provide more oxygen than the atmospheric O2 content to increase the concentration of inhaled O2 to improve oxygenation.
A piezoelectric sensor constantly monitors the patient's breathing signals to control the action of the respirator and synchronise it with the person's breathing. Therefore, the choice of pressure sensor is very important. Typically, the pressure sensor used in this area must have good linearity and high accuracy. In addition, temperature compensation is required. The performance of the piezoelectric sensor is relevant to the safety of the patient and should not be neglected when selecting it.
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