Customizable flow ranges and configurable package styles meet specific end-user

needs. Full calibration and temperature compensation typically allow customer

to remove additional components associated with signal conditioning from the PCB,

reducing PCB size as well as costs often associated with those components (e.g.,

acquisition, inventory, assembly). High sensitivity at very low flows provides for

faster response time at the onset or cessation of flow. Linear output provides

a more intuitive sensor signal than the raw output of basic airflow sensors,

which can help reduce production costs, design, and implementation time. High

stability reduces errors due to thermal effects and null shift to provide accurate

readings over time, often eliminating need for system calibration after PCB

mount and periodically over time. Low pressure drop typically improves patient

comfort in medical applications, and reduces noise and system wear on other

components such as motors and pumps. High 12-bit resolution (digital) increases

ability to sense small airflow changes, allowing customers to more precisely control

their application; 0.039 %FS resolution (analog) increases ability to sense small

airflow changes, allowing customers to more precisely control their application.