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A Fast-Locking, Low-Jitter Pulse width Control Loop for High-Speed ADC

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Abstract:

A fast-locking, high-precision, and low-jitter pulse width control loop (PWCL) for high-speed high-resolution analog-to-digital converter is presented. Only through controlling the delay of rising edge to adjust duty cycle, the clock jitter could be suppressed greatly. An improved charge pump with a follower circuit and self-biased loop was designed to decrease the voltage ripples for higher accuracy and lower jitter. A startup circuit was adopted to enable the pulse width control loop lock rapidly. With the SMIC 0.18 µm 3.3 V CMOS process, the simulation and measured results show that within 180 ns the PWCL can lock the clock duty cycles for the accuracy of 50 ± 1% with 10%~90% input duty cycle from 50 to 550 MHz. The rms-jitter is 73 fs at 250 MHz. The active area is about 0.023 mm2.

Software implementation:

• TANNER EDA

Advantages:

• Higher Accuracy in operation
• High speed high resolution is provided

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