Overview of MPL115A2ST1 by NXP Semiconductors
The MPL115A2ST1 is a sophisticated piezoresistive, MEMS Pressure Sensor crafted for absolute pressure measurements. It measures pressures ranging from a minimum of 7.25189 Psi to a maximum of 16.6793 Psi. This device is designed in a rectangular, low-profile package and is suitable for surface mounting applications, highlighting its utility in compact electronic assemblies. Enclosed in an 8-pin TSON package, the MPL115A2ST1 also integrates a digital output through an I2C interface, ensuring ease of integration into broader digital systems.
The MPL115A2ST1 operates within a wide temperature range (-40 °C to +105 °C), making it suitable for varying environmental conditions. Additionally, it requires a very low operating current (max 0.006 mA), contributing to the efficiency of the systems it is used in. With a supply voltage ranging from 2.375 V to 5.5 V, this sensor provides flexible power requirements. As per the manufacturer’s data, MPL115A2ST1 is compliant with RoHS, indicating adherence to specific environmental standards regarding the restriction of hazardous substances.
Industry Applications for MPL115A2ST1
The MPL115A2ST1 could be apt for various applications across different industries where precise and reliable pressure measurements are critical. Below are potential industry applications incorporating this sensor, noting that these applications are conceptual and should be analyzed and verified by engineering and design teams to meet specific requirements and standards:
- Environmental Monitoring: The MPL115A2ST1 might be utilized in weather stations for barometric pressure reporting. The sensor’s ability to operate over a broad temperature range and its digital output interface makes it an excellent candidate for remote monitoring systems that require minimal power consumption and reliable data communication.
- Industrial Automation: This sensor could potentially be used in automated pressure control systems within industrial settings. Its robust operating temperature range and precision make it suitable for controlling and monitoring processes that depend on stable and accurate pressure measurements.
- Smart Cities: In applications related to infrastructure monitoring, such as water distribution networks or HVAC systems in large buildings, the MPL115A2ST1 could provide vital data, helping maintain system efficiencies and predict maintenance needs.
- Agriculture Technology: For agricultural applications, such as greenhouse climate control systems, the sensor could help in monitoring environmental conditions, thus enabling optimized plant growth conditions.
Note: The suitability of the MPL115A2ST1 for these applications is conditional and requires thorough validation to ensure performance and regulatory compliance.
About NXP Semiconductors
NXP Semiconductors is a prominent player in the field of semiconductor technology, particularly known for its comprehensive range of sensors including Pressure Sensors. MPL115A2ST1 represents just one of many advanced sensors the company produces. NXP’s sensors are generally highly regarded for their integration features and robust performance, making them preferable for a wide array of applications, from automotive safety and industrial control to consumer electronics and IoT implementations. Their commitment to quality and the environment is reflected in their compliance with international standards such as RoHS, which pertains to the restriction of hazardous substances in electronic products.
Where to Find MPL115A2ST1 by NXP Semiconductors
If you are considering incorporating the MPL115A2ST1 into your designs, it is vital to choose a reliable source for procurement. While historical availability has shown distribution through Avnet Americas, Mouser Electronics, EBV Elektronik, Avnet Silica, and Farnell, it is recommended to check current stock levels and pricing on findchips.com. Additionally, by visiting the provided link, you can also explore alternative options within the Pressure Sensors category that may be suitable for your application needs.