NovaSensor | Pressure Sensors
Equipped with the most advanced design tools and cutting edge laboratories, NovaSensor is a leader in the design, model and fabrication of Microelectromechanical Systems (MEMS) Pressure Sensors.
The NovaSensor pressure sensor product line includes state-of-the-art, high performance and cost effective sensor solutions known for their accuracy, reliability and size. Our MEMS pressure sensing solutions include families of surface mount, hybrid and media-isolated sensors, available in all levels of calibration from uncalibrated to fully-calibrated, amplified analog and digital output versions.
Pressure Sensor Die
The NovaSensor P1302 Low Pressure Silicon Pressure Sensor Die is a high-sensitivity silicon piezoresistive pressure sensor die that is well-suited for measuring low-pressure.
The NovaSensor P1602 Pressure Sensor Die is a piezoresistive pressure sensor offered in a miniature die.
NovaSensor P162 Medical Silicon Gage Pressure Sensor Die are piezoresistive pressure sensor die offered in a miniature 1150 x 725 mm die that is small enough for three French catheters.
NovaSensor P165 Medical Silicon Absolute Pressure Sensor Die is a piezoresistive pressure sensor die offered in a miniature 1150 x 675 mm die that is small enough for three French catheters. The small size is made possible by NovaSensor’s proprietary Silicon Fusion Bonding (SFB) process. When excited with an AC or DC voltage source, the P165 produces a mV output that is proportional to input pressure. NovaSensor P165 is in a halfbridge design, where external resistors are needed to complete a full bridge configuration.
The NovaSensor P1905 Backside Absolute Pressure Sensor Die is a piezoresistive sensor die designed for absolute pressure measurements in aggressive (harsh) media.
The NovaSensor P2701 is a high sensitivity, low pressure sensor die. It is usable over a wide pressure range with long-term stability and repeatability.
The NovaSensor P2705 Miniature Low Pressure Sensor Die utilizes four piezoresistors combined in a Wheatstone bridge circuit. When excited by constant voltage, the P2705 die produces a differential millivolt output signal directly proportional to the applied pressure. Available as gage, the P2705 sensor die also features high sensitivity, excellent overload capability, and small temperature hysteresis over a wide temperature range.
The NovaSensor P330 Series of Absolute Pressure Sensor Die, or piezoresistive pressure die, offers the same superior stability and sensitivity as in larger chips, but in an extremely small footprint for invasive applications where small size is critical.
NovaSensor P330B Piezoresistive (PRT) Pressure Sensor Die offers the same superior stability and sensitivity as larger chips, but in an extremely small footprint for invasive applications where small size is critical. It has excellent measurement accuracy, which is ideal for demanding applications with restricted dimensional profiles, such as medical catheters and IC packages.
The NovaSensor P562 Medical Silicon Pressure Die is a piezoresistive pressure sensor that is specifically designed for medical applications. Low linearity errors, low input and low output impedance make the P562 and industry standard for disposable pressure sensor die.
The NovaSensor P883 Medium and High Pressure MEMS Sensor Die utilizes four piezoresistors combined in Wheatstone bridge circuit. When excited by either constant voltage or constant current, the P883 Die produces a differential millivolt output signal directly proportional to the applied pressure. Available as gage (differential) or absolute, the P883 also features high sensitivity, excellent overload capability and small temperature hysteresis over a wide temperature range.
NovaSensor PT1907 is a piezoresistive sensor die that is designed for combined pressure and temperature measurements in harsh media. Pressure is applied from the backside of the die, which eliminates direct contact between the topside of the sensor circuitry and the applied media. This allows PT1907 to measure pressure and temperature in aggressive liquids and gases.