The Sensor can provide better results and additional notable energy savings when they get a lot smarter—and Faststream Technologies is helping them move in that direction. One example is an inertial sensor that is connected with a Machine Learning Core (MLC) and a Finite State Machine (FSM). Smart Sensors For Industrial Applications a comprehensive feature of this sensor is that it has an embedded Machine Learning Core. Engineers can present definite parameters of the decision tree with Weka, an open-source collection of machine learning algorithms.
Rather than using a host microcontroller (MCU) to keep up with an algorithm and make ready a closure from the accessible data, which wants more energy, the Machine Learning Core in the sensor can run an inductive algorithm at a fraction of the power consumption Hence, the system can acknowledge particular activities, carry positions, or count steps, by detecting activities of the users’ and understanding from predefined patterns.
Faststream Technologies FSTOSX provides original OS needs, supplying real, virtual, and batch sensors with 6kb for dynamic data batching. It aids with various event-based breakups, even Machine Learning Core (MLC), Finite State Machine (FSM) for accelerometer, gyroscope, and external sensors.
The FSTSOX completely supports EIS and OIS applications because our module comprises a dedicated configurable signal processing path for OIS and auxiliary SPI, configurable for both the gyroscope and accelerometer. High robustness to mechanical shock makes the FSTSOX the preferred choice of system designers for the formation and production of reliable products.
Faststream Technologies carry on to innovate new sensors and technology which are ultra-low power, low noise, more accurate, and higher performance. Our new sensors are easy to design, implement, and even adjust.
One such example is the inclinometer FSTDHHC. FSTDHHC is a linear accelerometer that gives high stability and low noise. The sensing element is manufactured using a stalwart micromachining process developed by Faststream Technologies to construct inertial sensors and actuators on silicon wafers. The IC interface is produced using a CMOS process that permits a high level of integration to design an allocated circuit which is trimmed to match the characteristics of the sensing element better. We provide the FSTDHHC for the low-stress high-performance ceramic cavity with the land grid array package and are able to operate within a temperature range of -30 degrees Celsius to +70 degrees Celsius.
Faststream’s FSTHW is a water and chemical resistant ultra-compact piezo-resistive pressure sensor that functions as a digital output barometer. The sensing element, which perceives absolute pressure, comprises a suspended membrane manufactured using a dedicated process developed by ST. The FSTHW is available in a holed ceramic LGA package.
Using FSTHW it is the covenant that you can operate it over a temperature range extending from -30° C to +70° C. To allow the external pressure and to gain the sensing items the package is holed. One silica gel used inside the Integrated Circuit for safeguards the electrical components from raucous environmental situations.
Asia has not only the largest production facility in the world but it also has big and small R&D centers. The major sensor business-related Companies are situated in India. Some of the applications where our sensors are used are mobile-phones, wearables, drones, shared bikes, automobiles, toys, telecom antennae, printers, tracking devices, and home appliances. Also, sensors are escalating in various Industrial applications. Some Industrial applications are vibration monitoring, theft detection, and environmental monitoring.
Faststream Technologies has a powerful team present across Asia to assist our customers whatever the locations. We are helping our customers with sensors as well as customers can leverage our presence in microcontrollers, connectivity, and power management devices