The MEMS-based gas-flow sensor first to embed automatic ‘gas-quality’ compensation.
MEMS-based gas flow sensor.
OMRON Corporation (TOKYO: 6645; ADR: OMRNY), a world leader in automation technology, and STMicroelectronics (NYSE: STM), a global semiconductor leader serving customers across the spectrum of electronic applications, announced the completion of the development of a MEMS-based gas flow sensor with industry-unique built-in correction for differences in gas composition. OMRON will start sample shipments of the new sensor in November 2012.
As with electricity-consumption measuring, gas metering is moving from conventional mechanical solutions to smart electronic meters with automatic meter-reading functions. There are over 400 million mechanical gas meters in the world and most major gas providers are readying to replace their traditional meters with more accurate and reliable electronic devices.
In addition to higher precision and reliability, the OMRON/ST sensor solution enables the development of smart gas meters that are much smaller, less expensive, and more power-efficient than the conventional equipment, resulting in substantial cost savings for the utility companies and end users alike. Industry analysts expect the global smart gas meter market to exceed 10 million units a year by 2015.
The new gas-flow sensor combines OMRON’s state-of-the-art MEMS (Micro-Electro-Mechanical System) thermal flow transducer with ST’s high-performance analog front-end IC, delivering high-precision gas flow-rate measurement with excellent reproducibility. Gas meters built around the OMRON/ST solution do not need to be configured for a certain type of gas at the time of shipment or installation, as they are intrinsically compensated for both temperature and pressure variations and a built-in circuit compensates for the variation of multiple gas composition. The sensor is dust-resistant to comply with international gas-meter standards.
“The successful collaboration with OMRON in gas metering expands ST’s foothold in the increasingly important field of ‘intelligent measurement’ and sets us to replicate the great success we have achieved in smart electricity metering,” said Marco Cassis, Executive Vice President and President, Japan and Korea Region, STMicroelectronics.
"We are very much excited to introduce a new powerful one-stop solution that enables a simple and very accurate Smart Gas Meter System for global markets through the successful collaboration with STMicroelectronics. By enabling IT-based smart metering, this new technology will significantly contribute to energy saving," said Yoshio Sekiguchi, Senior General Manager of the Micro Devices Division of OMRON Corporation.
Headquartered in Kyoto, Japan, OMRON Corporation is a global leader in the field of automation. Established in 1933, Omron has more than 36,000 employees in over 35 countries working to provide products and services to customers in a variety of fields including industrial automation, electronic components, social systems, healthcare, and the environment. The company has regional head offices in Singapore (Asia Pacific), Beijing (Greater China), Amsterdam (Europe, Africa, and the Middle East), Chicago (the Americas), Gurgaon (India), and Sao Paulo (Brazil). For more information, visit OMRON's website at http://www.omron.com/
ST is a global leader in the semiconductor market serving customers across the spectrum of sense and power technologies and multimedia convergence applications. From energy management and savings to trust and data security, from healthcare and wellness to smart consumer devices, in the home, car and office, at work and at play, ST is found everywhere microelectronics make a positive and innovative contribution to people's life. By getting more from technology to get more from life, ST stands for life.augmented.
In 2011, the Company’s net revenues were $9.73 billion. Further information on ST can be found at www.st.com.
 Pike Research smart gas meter report
2 The correction coefficient is set according to the range of gas types used
3 5.7, Immunity to contaminants in gas stream
4 Depending on measurement conditions