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Radar sensors typically share a similar structure as shown in Figure 1Our [[https://siliconradar. Some building blocks com/wiki/Reference_Designs reference designs]] SiRad Easy® and SiRad Simple® can be used in Radar sensors are described hereas a start point for sensor developments by our EvalKit customers.
'''Front End''': The radar front end transmits and receives electromagnetic waves that reflect on objects. The reflected wave contains information about the object, for example, its speed or distance from the front end. Depending on the frequency of the electromagnetic waves, the antenna can be included with the front end, or connected externally. The front end is referred to as = Radar Front End (RFE).Sensor Software =
'''PLL & Loop Filter''': The Phase-Looked-Loop and loop filter block controls the front end and sets its frequency into the operating range. The Phase-Looked-Loop We also drives the ramp necessary to tune the front end over the chosen bandwidth. The loop filter is important for the correct operation of front end and Phase-Looked-Loop. The Phase-Looked-Loop usually also compensates for any temperature or aging effects. The Phase-Looked-Loop and loop filter block is referred to as PLL. '''Amplifier & Signal Filter'''offer a free signal processing library in our [[http: Amplifiers are used to amplify the signals coming from the radar front end//login. Since the signal reflected from an object and picked up by the radar front end is weaker than the signal that was initially sent out by the radar front end, the amplifier has to amplify this signal by adding as little noise as possible to the signalsiliconradar. This amplifier is referred to as Base Band Amplifier (BBAmp). Further, some filtering is necessary on the signal. Filters are typically placed next to (before and after) the amplifier and referred to as Low-Pass (LP), High-Pass (HP) or Band-Pass (BP). '''ADC & Microcontroller''': The Analog-Digital-Converter (ADC) or microcontroller (uC) digitizes the radar signal com download area]] for the following processing steps. Usually, the next processing steps include DC cancellation, windowing of the data, FFT calculation, and finally target extraction. The microcontroller also controls the different hardware parts such as RFE, PLL and BBAmp. '''Data Interfaces''': Interfaces are needed to control the sensor via commands and to output data. Typical communication interfaces are GPIO pins, UART, SPI, Ethernet and Wifiour EvalKit customers.
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= General Information =
Since Radars use radio wave in the detection processvariety of possible applications for radar is huge, radar sensors need to be tuned specifically to the Radar front ends target application. Usually, the critical parameters are related to electronic circuits that operate with high-frequency signals. Depending on the purpose update rate of applicationsthe sensor, these frequencies range from hundreds of MHz up its resolution or the ability to hundreds seperate targets, and its accuracy (of GHzmeasured distance or speed). The design of Radar sensors involve Mostly, the baseband needs to be designed specifically for the development of PCBs intended application and software around building blocks such as radar front endsmeasurement principle, amplifiersto match the desired parameters. Also, PLL & loop filters, ADC and microcontrollers, data interfaces and passive elementsthe signal processing software on the sensor needs to be implemented accoring to the applications needs.
= Radar Sensor Building Blocks Hardware =
