SONG; Hongxin

Patent Applications and Registrations

Patent applications and USPTO patent grants for SONG; Hongxin.The latest application filed is for "real-time fluorescence quantitative pcr detection method and kit based on metal ruthenium complex".

Company Profile

2.28.1

SONG; Hongxin - Xi'an Shaanxi
Song; Hongxin - Sunnyvale CA
- Sunnyvale CA US

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Real-time fluorescence quantitative PCR detection method and kit based on metal ruthenium complex App 20210348223 - XU; Qinfeng ; et al.	2021-11-11
Using dipulse response to detect channel parameters Grant 10,658,003 - Du , et al.	2020-05-19
Repeated runout (RRO) zero phase start (ZPS) Grant 9,418,690 - Song , et al. August 16, 2	2016-08-16
Systems and methods for detecting cycle slip and/or framing error Grant 9,077,501 - Oberg , et al. July 7, 2	2015-07-07
Repeated runout (RRO) zero phase start (ZPS) Grant 9,053,742 - Song , et al. June 9, 2	2015-06-09
Applying digital frequency offset to timing loop Grant 9,019,645 - Song , et al. April 28, 2	2015-04-28
Nonlinear detectors for channels with signal-dependent noise Grant 8,976,909 - Song , et al. March 10, 2	2015-03-10
ACQ in the presence of baseline pop Grant 08922924 -	2014-12-30
ACQ in the presence of baseline pop Grant 8,922,924 - Song , et al. December 30, 2	2014-12-30
Systems and methods for revising data in a signal read from a storage medium according to a calculated gain Grant 8,804,259 - Song , et al. August 12, 2	2014-08-12
Systems and methods for inter-track interference cancellation in magnetic recording channels Grant 8,773,792 - Song , et al. July 8, 2	2014-07-08
Systems and methods for gain compensation and re-timing in magnetic recording channels Grant 8,649,120 - Song , et al. February 11, 2	2014-02-11
Defect detection design Grant 8,634,286 - Yang , et al. January 21, 2	2014-01-21
ACQ in the presence of baseline pop Grant 8,625,218 - Song , et al. January 7, 2	2014-01-07
Averaging signals to improve signal interpretation Grant 8,589,774 - Song , et al. November 19, 2	2013-11-19
Systems and methods for inter-track interference cancellation in magnetic recording channels Grant 8,537,482 - Song , et al. September 17, 2	2013-09-17
Nonlinear detectors for channels with signal-dependent noise Grant 8,462,897 - Song , et al. June 11, 2	2013-06-11
Averaging signals to improve signal interpretation Grant 8,359,527 - Song , et al. January 22, 2	2013-01-22
Defect detection design Grant 8,315,132 - Yang , et al. November 20, 2	2012-11-20
Nonlinear detectors for channels with signal-dependent noise Grant 8,160,181 - Song , et al. April 17, 2	2012-04-17
Averaging signals to improve signal interpretation Grant 8,161,361 - Song , et al. April 17, 2	2012-04-17
Defect detection design Grant 8,054,717 - Yang , et al. November 8, 2	2011-11-08
Apparatus, method, and circuit for baseline loop analog cancellation Grant 7,755,522 - Song , et al. July 13, 2	2010-07-13
Apparatus, method, and system for correction of baseline wander Grant 7,589,649 - Aga , et al. September 15, 2	2009-09-15
Apparatus, method, and circuit for baseline loop analog cancellation Grant 7,486,215 - Song , et al. February 3, 2	2009-02-03

uspto.report is an independent third-party trademark research tool that is not affiliated, endorsed, or sponsored by the United States Patent and Trademark Office (USPTO) or any other governmental organization. The information provided by uspto.report is based on publicly available data at the time of writing and is intended for informational purposes only.

While we strive to provide accurate and up-to-date information, we do not guarantee the accuracy, completeness, reliability, or suitability of the information displayed on this site. The use of this site is at your own risk. Any reliance you place on such information is therefore strictly at your own risk.

All official trademark data, including owner information, should be verified by visiting the official USPTO website at www.uspto.gov. This site is not intended to replace professional legal advice and should not be used as a substitute for consulting with a legal professional who is knowledgeable about trademark law.