Abstract
This paper presents a new architecture for a synchronized frequency multiplier circuit. The proposed architecture is an all‐digital dual‐loop delay‐ and frequency‐locked loops circuit, which has several advantages, namely, it does not have the jitter accumulation issue that is normally encountered in PLL and can be adapted easily for different FPGA families as well as implemented as an integrated circuit. Moreover, it can be used in supplying a clock reference for distributed digital processing systems as well as intra/interchip communication in system‐on‐chip (SoC). The proposed architecture is designed using the Verilog language and synthesized for the Altera DE2‐70 development board. The experimental results validate the expected phase tracking as well as the synthesizing properties. For the measurement and validation purpose, an input reference signal in the range of 1.94–2.62 MHz was injected; the generated clock signal has a higher frequency, and it is in the range of 124.2–167.9 MHz with a frequency step (i.e., resolution) of 0.168 MHz. The synthesized design requires 330 logic elements using the above Altera board.
Highlights
Over the years, the phase-locked loops (PLLs) and delaylocked loops (DLLs) are widely employed in the data communication systems including, but not limited to, the implementation of the frequency multiplication and clock synchronization circuits [1, 2]
We proposed a fully digital wide-range synchronized frequency multiplier with a high multiplication factor
The proposed synchronized frequency multiplier is completely realized as a fully digital architecture. It is designed using Verilog-HDL and synthesized using Altera Quartus II Web Edition v11.0 software for Altera DE2-70 development board, with a Cyclone II EP2C35F672C6 FPGA on board. The fact that it is implemented on an FPGA is a confirmation of its all-digital status; it can be implemented on various platforms, such as FPGAs and integrated circuit (IC)
Summary
The phase-locked loops (PLLs) and delaylocked loops (DLLs) are widely employed in the data communication systems including, but not limited to, the implementation of the frequency multiplication and clock synchronization circuits [1, 2]. The first type is an all-digital cell-based architecture [3] where two digitally controlled oscillators (DCOs) are used to effectively decrease the clock jitter. According to relatively recent studies in [7,8,9,10], the dual-loop architectures have shown a potential in attenuating both the on-chip and input clock noise, and they do not have the accumulated jitter issue. We proposed a fully digital wide-range synchronized frequency multiplier with a high multiplication factor.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
