Your search keyword '"Nohara (Miyahara), Masaya"' showing total 20 results

1. A 32kHz-Reference 2.4GHz Fractional-N Oversampling PLL with 200kHz Loop Bandwidth

Author

Qiu, Junjun, Sun, Zheng, Liu, Bangan, Wang, Wenqian, XU, Dingxin, Xu, Dingxin, HERDIAN, HANS, Herdian, Hans, HUANG, Hongye, Huang, Hongye, Zhang, Yuncheng, Wang, Yun, Pang, Jian, Jian, Pang, Liu, Hanli, Nohara (Miyahara), Masaya, Shirane, Atsushi, and Okada, Kenichi

Subjects

Phase-locked loop, Analogue electronics, CMOS, Sampling (signal processing), Comparator, Computer science, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Oversampling, Electrical and Electronic Engineering, Phase detector, Jitter

Abstract

In this article, a mixed-signal, 32-kHz reference-based 2.4-GHz fractional-N over-sampling phase-locked loop (OSPLL) is proposed. Different from the conventional 1x sampling PLL, which only uses zero-crossing timing information of the reference signal, the proposed OSPLL fully utilizes both the voltage and timing domain information of the reference signal and realizes oversampling ratio (OSR) times phase detection (PD) in one reference cycle. The proposed OSPLL employs the digital-to-analog converter (DAC) to construct the reference-like feedback signal in the voltage domain and utilizes the digital-to-time converter (DTC) to improve PD resolution in the time domain. The adaptive lookup table (LuT)-based calibration is proposed to generate the correct information for DAC and DTC control. A clocked passive comparator works as a bang-bang phase detector (BBPD) for the PLL control and LuTs' construction. The co-design of low-noise analog circuits and digital calibrations enables good jitter and spur performance. The proposed OSPLL is fabricated in 65-nm CMOS technology, with the core area of 0.58 mm², and the power consumption is 4.97 mW with a 1-V power supply. It achieves 5.79-ps root-mean-square (rms) jitter in fractional-N modes with the loop-bandwidth (BW $_{loop}$ ) of 200 kHz, corresponding to the figures of merit (FoMs) of -217.8 dB. The measured fractional spur is less than -36 dBc, and the reference spur is -78 dBc, respectively.

Published

2021

2. A 24-MHz 13-µW CTGS Class-C Complementary Colpitts Crystal Oscillator with On-Chip Background Temperature Compensation

Author

Xu, Zule, Okada, Kenichi, and Nohara (Miyahara), Masaya

Published

2021

3. Type-I Digital Ring-Based PLL Using Loop Delay Compensation and ADC-Based Sampling Phase Detector

Author

Xu, Zule, Firdauzi, Anugerah, Nohara (Miyahara), Masaya, Okada, Kenichi, and Matsuzawa, Akira

Published

2019

4. A 50.1Gb/s 60-GHz CMOS Transceiver for IEEE 802.11ay with Calibration of LO Feed-Through and I/Q Imbalance

Author

Pang, Jian, Jian, Pang, Maki, Shotaro, Kawai, Seitaro, Nagashima, Noriaki, Seo, Yuuki, Dome, Masato, Katou, Hisashi, Katsuragi, Makihiko, Kimura, Kento, Kondo, Satoshi, Terashima, Yuki, Liu, Hanli, SIRIBURANON, T, Siriburanon, Teerachot, THARAYILNA, ARAVIND, Aravind, Tn, NURUL, FAJRI, Fajri, Nurul, Kaneko, Tohru, Yoshioka, Toru, Liu, Bangan, Wang, Yun, Wu, Rui, Li, Ning, Tokgoz, KorkutKaan, Tokgoz, Korkut Kaan, Nohara (Miyahara), Masaya, Shirane, Atsushi, and Okada, Kenichi

Published

2019

5. CTGS圧電単結晶振動子を用いた世界最小電力基準クロック発生回路

Author

Xu, Zule, Okada, Kenichi, and Nohara (Miyahara), Masaya

Published

2021

6. A 64µs Start-Up 26/40MHz Crystal Oscillator with Negative Resistance Boosting Technique Using Reconfigurable Multi-Stage Amplifier

Author

Nohara (Miyahara), Masaya, Endoh, Yukiya, Okada, Kenichi, and Matsuzawa, Akira

Published

2018

7. 64-QAM 60-GHz CMOS Transceivers for IEEE 802.11ad/ay

Author

Wu, Rui, Minami, Ryo, Tsukui, Yuuki, Kawai, Seitaro, Seo, Yuuki, Sato, Shinji, Kimura, Kento, Kondo, Satoshi, Ueno, Tomohiro, NURUL, FAJRI, Fajri, Nurul, Maki, Shotaro, Nagashima, Noriaki, Takeuchi, Yasuaki, Yamaguchi, Tatsuya, AHMED, MAGDI MUSA, Musa, Ahmed Magdi Hassan, Tokgoz, KorkutKaan, Tokgoz, Korkut Kaan, SIRIBURANON, T, Siriburanon, Teerachot, Liu, Bangan, Wang, Yun, Pang, Jian, Jian, Pang, Li, Ning, Nohara (Miyahara), Masaya, Okada, Kenichi, and Matsuzawa, Akira

Published

2017

8. Ultra-High-Data-Rate 60-GHz CMOS Transceiver for Future Radio Access Network

Author

Wu, Rui, Minami, Ryo, Tsukui, Yuuki, Kawai, Seitaro, Seo, Yuuki, Sato, Shinji, Kimura, Kento, Kondo, Satoshi, Ueno, Tomohiro, NURUL, FAJRI, Fajri, Nurul, Maki, Shotaro, Nagashima, Noriaki, Takeuchi, Yasuaki, Yamaguchi, Tatsuya, AHMED, MAGDI MUSA, Musa, Ahmed Magdi Hassan, Tokgoz, KorkutKaan, Tokgoz, Korkut Kaan, SIRIBURANON, T, Siriburanon, Teerachot, Liu, Bangan, Wang, Yun, Pang, Jian, Jian, Pang, Li, Ning, Nohara (Miyahara), Masaya, Okada, Kenichi, and Matsuzawa, Akira

Published

2017

9. 再利用を可能にするアナログ合成のアレー座標生成方法

Author

mori, kenji, Sugawara, Mitsutoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2017

10. A 128-QAM 60GHz CMOS Transceiver for IEEE802.11ay with Calibration of LO Feedthrough and I/Q Imbalance

Author

Pang, Jian, Jian, Pang, Maki, Shotaro, Kawai, Seitaro, Nagashima, Noriaki, Seo, Yuuki, Katsuragi, Makihiko, Kimura, Kento, Kondo, Satoshi, Liu, Hanli, SIRIBURANON, T, Siriburanon, Teerachot, Kaneko, Tohru, Nohara (Miyahara), Masaya, Okada, Kenichi, and Matsuzawa, Akira

Published

2017

11. An Op-amp Free SAR-VCO Hybrid ADC with Second-Order Noise Shaping

Author

Hou, Yu, Chen, Zhijie, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2016

12. A Low-Power Mixed-Domain Delta-Sigma Time-to-Digital Converter Using Charge-Pump and SAR ADC

Author

Firdauzi, Anugerah, Xu, Zule, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2016

13. A 74.5 dB SNDR 1 MHz Bandwidth 1.17 mW Delta-Sigma Time to Digital Converter Using Charge-Pump and SAR ADC

Author

Firdauzi, Anugerah, Xu, Zule, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2016

14. Prototype of 3-Gb/s 60-GHz Millimeter-wave-based Wireless File-transfer System

Author

Okada, Kenichi, Nohara (Miyahara), Masaya, HIROKAWA, JIRO, and Ando, Makoto

Published

2015

15. 自動設計に適したレイアウト・ドリブンによるミックストシグナルLSI設計手法のGHz PLL等への適用拡大

Author

Sugawara, Mitsutoshi, mori, kenji, Xu, Zule, kawashima, satoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2015

16. MATLAB言語を用いた回路シミュレータの開発

Author

mori, kenji, Sugawara, Mitsutoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2014

17. SKILL言語を用いたソフトウエアアナログの開発

Author

mori, kenji, Sugawara, Mitsutoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2014

18. Novel Design Method for ~GHz DAC & Automated Design Program

Author

Sugawara, Mitsutoshi, mori, kenji, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2014

19. Development of a scalable 12-bit SAR ADC

Author

Kawaraguchi, Hiromasa, Lee, Seung Jong, Hirato, Takashi, Sugawara, Mitsutoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2013

20. 9ビットRDACの自動合成

Author

mori, kenji, Sugawara, Mitsutoshi, Nohara (Miyahara), Masaya, and Matsuzawa, Akira

Published

2013