Blood pressure meters (BPM) estimate a person’s blood pressure by measuring the pressure in occluding cuff and then calculating systolic and diastolic pressure values using algorithms based on statistical data and/or neural network methodologies. BPMs are widely used in hospital equipment as well as in-home devices.
The precise control of the cuff’s inflation/deflation is a key element to prevent errors due to step changes in cuff pressure as well as high-accuracy digital accelerometers to help detect, and remove, motion artifacts.
We provide a large variety of MEMS sensors including environmental and motion sensors to detect motion artifacts in addition to low-power and high-performance STM32 microcontrollers, high-precision operational amplifiers and a variety of low-power linear and switching regulators to help developers design optimized blood pressure monitors.
MEMS and Sensors
|IIS2DH||3-axis digital accelerometer, ultra low-power high performance MEMS motion sensor|
|IIS3DHHC||High-resolution, high-stability 3-axis digital inclinometer for industrial applications|
|STL100N8F7||N-channel 80 V, 5.2 mOhm typ., 100 A STripFET F7 Power MOSFET in a PowerFLAT 5x6 package|
|STL150N3LLH6||N-channel 30 V, 0.0016 Ohm typ., 33 A STripFET(TM) VI DeepGATE(TM) Power MOSFET in PowerFLAT(TM) 5x6 package|
|STL20N6F7||N-channel 60 V, 0.0046 Ohm typ., 20 A STripFET F7 Power MOSFET in a PowerFLAT 3.3x3.3 package|
|STL45P3LLH6||P-channel -30 V, 11 mOhm typ., -45 A STripFET H6 Power MOSFET in a PowerFLAT 5x6 package|
|STL50N6F7||N-channel 60 V, 9 mOhm typ., 60 A STripFET F7 Power MOSFET in a PowerFLAT 5x6 package|