Area-Efficient Bidirectional Shift-Register Using Bidirectional Pulsed-Latches
The proposed bidirectional shift-register reduces the area and power consumption by replacing master-slave flip-flops and 2-to-1 multiplexers with the proposed bidirectional pulsed-latches and non-overlap delayed pulsed clock signals, and by using sub shift-registers and extra temporary storage latches.
CW Lidar signal processing System IP
CW Lidar signal processing IP consists of N-step digital filters.
The described IP has the advantage of using a low number of sampling rate digital data and a low number of FFT points.
By applying the CFAR algorithm to a digital signal that passed through the N-step digital filter, more accurate distance measur..
Zoom FFT CW Lidar system IP
FMCW Lidar system IP with variable point FFT and analog filter.
The Beat Frequency is extracted from the transmit and receive waveforms and passed through an analog filter of N-step to perform Fourier Transform in the low band.
Send the filtered analog signal to the FPGA to estimate the original Beat Frequency to o..
MUSIC Algorithm for Radar Signal Processor
This IP is the MUSIC algorithm for radar signal processor, which can detect target’s angle in high resolution. The MUSIC algorithm IP consists of pre-processor unit, covariance matrix (CMU), eigenvalue decomposition unit (EDU), and peak searching unit (PSU). This IP was designed in a hardware description language (H..
Radar Signal Processor for Advanced Driver Assistance Systems
This IP is the frequency modulated continuous wave (FMCW) radar signal processor for advanced driver assistance system (ADAS), which can detect range, velocity and angle information of the target. The FMCW radar signal processor IP consists of pre-processor, fast Fourier transform (FFT) processor, constant false alarm..