Abstract
Recently, studies have been actively carried out to implement motion detecting sensors by applying radar techniques. Doppler radar or frequency-modulated continuous wave (FMCW) radar are mainly used, but each type has drawbacks. In Doppler radar, no signal is detected when the movement is stopped. Also, FMCW radar cannot function when the detection object is near the sensor. Therefore, by implementing a single continuous wave (CW) radar for operating in dual-mode, the disadvantages in each mode can be compensated for. In this paper, a dual mode local oscillator (LO) is proposed that makes a CW radar operate as a Doppler or FMCW radar. To make the dual-mode LO, a method that controls the division ratio of the phase locked loop (PLL) is used. To support both radar mode easily, the proposed LO is implemented by adding a frequency sweep generator (FSG) block to a fractional-N PLL. The operation mode of the LO is determined by according to whether this block is operating or not. Since most radar sensors are used in conjunction with microcontroller units (MCUs), the proposed architecture is capable of dual-mode operation by changing only the input control code. In addition, all components such as VCO, LDO, and loop filter are integrated into the chip, so complexity and interface issues can be solved when implementing radar sensors. Thus, the proposed dual-mode LO is suitable as a radar sensor.
Highlights
IntroductionIn Doppler mode, the continuous wave (CW) radar detects the frequency difference that occurs in proportion to the moving speed of the object
A dual-mode local oscillator (LO) is proposed in which a continuous wave (CW) radar could be operated in either
The main features are that the frequency-modulated continuous wave (FMCW) radar is implemented by division ratio control method, and dual-mode operation is possible with only 1-bit control
Summary
In Doppler mode, the CW radar detects the frequency difference that occurs in proportion to the moving speed of the object. The difference between the Doppler and FMCW mode is that information can be obtained even if the target is stationary or moving, because the received signal is delayed by ToF compared to the transmitted signal (Figure 3b,c). When the proposed LO operates in FMCW mode, the division ratio of the PLL is automatically changed by the FSG block based on the stored information.
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