A 0.1–3.5-GHz duty-cycle measurement and correction technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - IEEE Transactions on …, 2015 - ieeexplore.ieee.org
A duty-cycle correction technique using a novel pulsewidth modification cell is demonstrated
across a frequency range of 100 MHz-3.5 GHz. The technique works at frequencies where …
被引用次数:31 相关文章

[引用][C] A 0.1–3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - IEEE Transactions on Very …, 2016 - cir.nii.ac.jp
A 0.1–3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS | CiNii
Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 …

A 0.1-3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - … ON VERY LARGE …, 2016 - eprints.iisc.ac.in
A duty-cycle correction technique using a novel pulsewidth modification cell is demonstrated
across a frequency range of 100 MHz-3.5 GHz. The technique works at frequencies where …

A 0.1–3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - IEEE Transactions on Very …, 2016 - dl.acm.org
A duty-cycle correction technique using a novel pulsewidth modification cell is demonstrated
across a frequency range of 100 MHz–3.5 GHz. The technique works at frequencies where …

A 0.1-3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - IEEE Transactions on Very …, 2016 - computer.org
A duty-cycle correction technique using a novel pulsewidth modification cell is demonstrated
across a frequency range of 100 MHz-3.5 GHz. The technique works at frequencies where …

A 0.1-3.5-GHz Duty-Cycle Measurement and Correction Technique in 130-nm CMOS

I Raja, G Banerjee, MA Zeidan… - … ON VERY LARGE …, 2016 - eprints.iisc.ac.in
A duty-cycle correction technique using a novel pulsewidth modification cell is demonstrated
across a frequency range of 100 MHz-3.5 GHz. The technique works at frequencies where …