Abstract
This paper presents a low jitter All-Digital Delay-Locked Loop (ADDLL) with fast lock time and process immunity. A coarse locking algorithm is proposed to prevent harmonic locking with just a small increase in hardware resources. In order to effectively solve the dithering phenomenon after locking, a replica delay line and a modified binary search algorithm with two modes were introduced in our ADDLL, which can significantly reduce the peak-to-peak jitter of the replica delay line. In addition, digital codes for a replica delay line can be conveniently applied to the delay line of multi-channel Vernier TDC while maintaining consistency between channels. The proposed ADDLL has been designed in 55 nm CMOS technology. In addition, the post-layout simulation results show that when operated at 1.2 V, the proposed ADDLL locks within 37 cycles and has a closed-loop characteristic, the peak-to-peak and root-mean-square jitter at 800 MHz are 6.5 ps and 1.18 ps, respectively. The active area is 0.024 mm2 and the power consumption at 800 MHz is 6.92 mW. In order to verify the performance of the proposed ADDLL, an architecture of dual ADDLL is applied to Vernier TDC to stabilize the Vernier delay lines against the process, voltage, and temperature (PVT) variations. With a 600 MHz operating frequency, the TDC achieves a 10.7 ps resolution, and the proposed ADDLL can keep the resolution stable even if PVT varies.
Highlights
Delay-Locked Loops (DLLs) with high-locking accuracy and process immunity are extensively used in high resolution and high precision Time-to-digital Converter (TDC) [1,2,3]
The drawback of this method is that the range of the HOLD region will change due to PVT variations, and it is hard to apply tri-state digital phase detector (TSDPD) to other DLLs which differs in delay step
A low jitter few fast lock time and process immunity presented this method with the replica delay line, the variations and eliminated the paper
Summary
Jiyun Tong 1,2,3 , Sha Wang 1,2,3 , Shuang Zhang 1,3,4 , Mengdi Zhang 1,2,3 , Ye Zhao 1,2,3, * and Fazhan Zhao 1,2,3.
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