Bi-Directional Flow Sensor suits medical applications.
Press Release Summary:
Utilizing MEMS thermal accelerometer platform, Model MFC2030 is suited for analytical instruments, anesthesia, and other medical flow devices as well as process control and natural gas measurement. Suspended-bridge microstructure, coupled with advanced CMOS circuitry and 16-bit on-chip A/D, provides wide flow dynamic range. Highly configurable, Model MFC2030 offers multiple mounting options including manifold mount, BSP and NPT fittings.
Original Press Release:
MEMSIC Launches First High Performance Bi-Directional Flow Sensors for Medical and Industrial Applications
Leads industry for Accuracy and Dynamic Range, Low Pressure Drop and Low Power Consumption
New flow meter is based upon unique and innovative MEMSIC MEMS Thermal Accelerometer Platform
Andover, Massachusetts -- MEMSIC Inc., a leading sensing solutions provider, today announced the availability of its MFC2030 Bi-Directional Flow Sensor for a wide range of applications such as analytical instruments, anesthesia and other medical flow devices, process control, and natural gas measurement.
MEMSIC Inc. utilizes its highly advanced and successful MEMS thermal accelerometer platform, of which it has shipped hundreds of millions of units into a variety of automotive and consumer applications, as the flow sensing element in this high performance flow sensor. The MFC2030 leverages this experience, technology and economy of scale to offer a high performance, reliable and cost effective flow sensor.
MEMSIC was the first and only company to integrate a MEMS inertial sensor and signal processing circuitry together on a standard monolithic CMOS wafer. This same advanced MEMS technology and manufacturing process are leveraged into this advanced flow sensor solution.
In addition to exceptionally low power consumption, a MEMS suspended-bridge microstructure enables a highly sensitive flow measurement. This is due to the low thermal mass and conductivity of the bridge structure, which results in gas flow becoming the primary means to transfer heat via convection from the heater to the thermopiles. This effective and rugged structure, when coupled with advanced CMOS circuitry and a 16-bit on-chip A/D, provides an exceptionally wide flow dynamic range, which is critical for a wide range of precision industrial, consumer and medical applications.
The MFC2030 is highly configurable, with multiple mounting options including manifold mount, BSP and NPT fittings. Evaluation kits with USB interface and a user friendly GUI for easy set-up and data collection are now available.
FOR MORE INFORMATION
MEMSIC Inc., One Tech Drive, Suite 325, Andover, MA 0180
Tel: 978-738-0900 Fax: 978-738-0156
Email: info@memsic.com  www.memsic.com/flow-sensors
ABOUT MEMSIC
MEMSIC Inc., headquartered in Andover, Massachusetts, provides advanced semiconductor sensors and multi-sensor system solutions based on micro-electromechanical systems (MEMS) technology and sophisticated integration technologies in both the IC level and module level. MEMSIC’s unique and proprietary approach combines leading-edge sensor technologies, such as magnetic sensors, accelerometers, flow sensors and current sensors with mixed-signal processing circuitry to produce reliable, high quality, cost-effective solutions for the mobile phone, automotive, consumer, industrial, medical and general aviation markets.
EDITORIAL CONTACT:
Mr. Ohlan Silpachai, MEMSIC Flow Sensor Product Manager
Email: osilpachai@memsic.com
