ADG202AKNZ_ADG202AKNZ Introduction

"New infrastructure" has become a buzzword in China's economy in 2020. As a representative of emerging technologies and advanced productivity, new infrastructure is cultivating new kinetic energy with informatization, using new kinetic energy to promote new development, and forming a large-scale digital economy industry.

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ADI's new high power switches using silicon technology provide RF designers and system architects the flexibility to increase the complexity of their systems without making the RF front end a bottleneck in their designs. ADI's new high-power switches using silicon technology were developed to simplify RF front-end design, eliminating the need for peripheral circuits and reducing power consumption to negligible levels.

Common semiconductor materials include silicon, germanium, gallium arsenide, etc. Silicon is the most influential one in the application of various semiconductor materials.

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.

ADI's IMU applications and product lines are also very extensive. Since the launch of the first IMU product in 2007, after more than ten years of innovation and development, its IMU products have continued to improve in performance and smaller in size.

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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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ADI has launched a new mass-produced IMU product ADIS1650x series, which pays more attention to the needs of industrial "Internet of Things" and its need for precise geolocation. Its performance enables the system to accurately characterize motion without turbulence, vibration, wind, temperature And other environmental interference, so as to achieve more accurate navigation and guidance.

In Time Division Duplex (TDD) systems, the antenna interface incorporates a switching function to isolate and protect the receiver input from the power of the transmitted signal. The switch function can be used directly at the antenna interface (in relatively low power systems, as shown in Figure 1), or in the receive path (for higher power applications, as shown in Figure 2) to ensure proper connected to a duplexer. Having a parallel branch on the switching output will help improve isolation.

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ADI's high-power silicon switches are capable of handling up to 80 W of RF peak power, which is sufficient to meet the peak-to-average power ratio requirements of massive MIMO systems with headroom.

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