International audienceMaintaining satisfactory synchronization between transmitter and receiver is one of the major challenges in carrying out highly efficient ultra-wideband (UWB) communications. For tracking purposes, the delay-locked loop (DLL) concept is applied. The DLL could be considered as a fundamental tracking technique for UWB devices. In this paper, the reference signal is generated at the receiver based on an approach called timing with dirty template. This approach promises to improve tracking performance while reducing receiver structure complexity. After the reference template is generated, we derive first-order and second-order DLL designs for UWB systems. Furthermore, we utilize the benefits of time-hopping codes to enhance noise handling ability of the DLL. Finally, the parameters of the proposed DLL will be selected to optimize tracking behavior in the presence of the ambient noise and Doppler effects. Simulation results show tracking performance across various DLL parameter values
This paper proposes a fully-digital BIST architecture for the dynamic test of Σ∆ ADCs. The proposed BIST relies on generating a ternary stream that encodes a high-linearity analog sinusoidal and injecting it directly at the input of the Σ∆ modulator. Compared to the well-known bitstream, the use of three logic levels in the ternary stream reduces the quantization noise and, thereby, results in a test with a higher dynamic range that covers the full scale of the ADC. The output response is analyzed on-chip using a simplified version of the sine-wave fitting algorithm to compute the SNDR. A standard SPI bus provides digital external access to the embedded test instruments. The proposed BIST wrapper has been integrated into a 40 nm CMOS 18-bit stereo audio Σ∆ ADC IP core provided by ST Microelectronics. It incurs an overall area overhead of 7.1% and the total test time is 28ms per channel. Experimental results on fabricated chips demonstrate an excellent correlation between the BIST and the standard functional specification test.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.