A 50–1600 MHz Wide–Range Digital Duty–Cycle Corrector With Counter–Based Half–Cycle Delay Line

A 50–1600 MHz Wide–Range Digital Duty–Cycle Corrector With Counter–Based Half–Cycle Delay Line

Duty-cycle distortion may occur due to variations in the process, voltage, and temperature, or if the clock signal passes through clock buffers. To compensate duty-cycle distortion, a digital duty-cycle corrector (DCC) with counter-based half-cycle delay line (HCDL) is introduced. The HCDL of conven...

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Veröffentlicht in:IEEE access 2023, Vol.11, p.30555-30561
Hauptverfasser: Kim, Jaewook, Yun, Jaekwang, Chae, Joo-Hyung, Kim, Suhwan
Format: Artikel
Sprache:eng
Schlagworte:
ADC interface
Delay lines
digital duty-cycle corrector (DCC)
Distortion
half-cycle delay line (HCDL)
Memory interface
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Zusammenfassung:Duty-cycle distortion may occur due to variations in the process, voltage, and temperature, or if the clock signal passes through clock buffers. To compensate duty-cycle distortion, a digital duty-cycle corrector (DCC) with counter-based half-cycle delay line (HCDL) is introduced. The HCDL of conventional edge combiner type DCC requires a large area and make the DCC unsuitable for applications that operate in a wide-range frequency. The proposed counter-based HCDL reduces the silicon cost by repeating the delay line, while maintaining the performance of conventional DCC. A prototype chip fabricated in a 65nm CMOS process has an area of 0.0064mm2 and consumes 2.1mW at 1.6GHz. The measurement results show that the duty-cycle error is less than 0.89% over an input duty-cycle range of 20-80% for 50-1600MHz.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2023.3262307