LT1203CS8#PBF_LT1203CS8#PBF Introduction

In fact, with the penetration of AI in the Internet of Things and the enhancement of edge computing capabilities in recent years, MEMS sensors are gradually becoming the most popular micro-sensors due to a series of advantages such as small size, light weight, low power consumption, high reliability and high sensitivity. The main force has a great tendency to replace traditional mechanical sensors.

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. Because whether it is a camera, millimeter-wave radar, lidar, or satellite navigation and positioning, it will be affected by the external environment. Only the inertial navigation based on IMU can provide continuous, high-precision, high-speed automatic driving systems without being affected by the external environment. Reliable vehicle position, direction, speed and other multi-dimensional information to ensure the safe driving of the vehicle.

Therefore, the accuracy of the navigation system in the field of autonomous driving cannot be guaranteed only by high-precision satellites. The inertial measurement unit (IMU) based on MEMS sensor technology is the last barrier to ensure autonomous driving.

ADI's successive acquisitions of OtoSense and Test Motors plan to combine OtoSense's software with Test Motors' monitoring capabilities to create a solution that provides more advanced, comprehensive health monitoring of machines by capturing a wider range of potential faults.

The core units of most electronic products, such as computers, mobile phones or digital recorders, are closely related to semiconductors. Whether from the perspective of technology or economic development, the importance of semiconductors is very huge.

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A side-by-side comparison of printed circuit board (PCB) artwork for a PIN diode-based switch and a new silicon switch on a single-layer PCB design. Compared to PIN diode-based switches, silicon switches occupy less than 1/10 the PCB area. It simplifies power requirements and does not require high power resistors.

Based on its extensive experience in vehicle electrification, ADI enables systems such as battery management, powertrain and infotainment to maintain high performance by providing solutions with lower emissions, higher efficiency, higher reliability and safety. Smaller, lighter and more reliable, driving a greener and more efficient future car to the ground. The new infrastructure has solved the shortage of charging infrastructure. At the same time, stimulated by environmental protection needs and favorable policies, new energy vehicles will usher in a wave of popularization in 2020.

At this stage, industrial equipment is generally digitized and interconnected, and it is helping to transform production tools. Using the IIoT (Industrial Internet of Things) to monitor the health of machines helps enable predictive maintenance, allowing industry personnel to predict failures, resulting in significant savings in operating costs. . Of the physical quantities that can be measured, vibration spectrum measurements provide the most information on the root causes of problems in rotating machines and have been reliably applied to the most critical equipment in a variety of industrial applications.

They operate from a single 5 V supply with less than 1 mA of bias current and require no external components or interface circuitry. ADI's new high-power silicon switches are better suited for massive MIMO designs.

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Capabilities such as Condition Monitoring (CbM) and systems such as self-driving cars and collaborative robots have never been seen in factories before, but they are core elements of the IIoT. . Implementation of the Industrial Internet of Things (IIoT) is not a matter of making existing systems and processes faster, more efficient, or more accurate: it requires the adoption of entirely new and different technologies.

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