1
Armin Tajalli, Harm Cronie, Amin Shokrollahi: Efficient processing and detection of balanced codes. Kandou Labs, Robert J Irvine III, November 26, 2013: US08593305 (61 worldwide citation)

Circuits that are matched to balanced codes may recover transmitted information in a noise resilient and power efficient manner. Circuit components for processing a balanced code may include one or more of: matched amplification of the signals representing the balanced code, matched equalization and ...


2
Armin Tajalli, Harm Cronie, Amin Shokrollahi: Efficient processing and detection of balanced codes. KANDOU LABS, Invention Mine, February 21, 2017: US09577664 (1 worldwide citation)

Circuits that are matched to balanced codes may recover transmitted information in a noise resilient and power efficient manner. Circuit components for processing a balanced code may include one or more of: matched amplification of the signals representing the balanced code, matched equalization and ...


3
Armin Tajalli: Symmetric linear equalization circuit with increased gain. KANDOU LABS, Invention Mine, June 27, 2017: US09692381 (1 worldwide citation)

Circuits providing low noise amplification with continuous time linear equalization are described. An exemplary circuit includes four amplification elements, such as MOS transistors. The amplification elements are arranged in differential pairs, and the differential pairs are cross-coupled with a fr ...


4
Armin Tajalli, Harm Cronie, Amin Shokrollahi: Efficient processing and detection of balanced codes. KANDOU LABS, Invention Mine, August 9, 2016: US09413384 (1 worldwide citation)

Circuits that are matched to balanced codes may recover transmitted information in a noise resilient and power efficient manner. Circuit components for processing a balanced code may include one or more of: matched amplification of the signals representing the balanced code, matched equalization and ...


5
Armin Tajalli, Harm Cronie, Amin Shokrollahi: Efficient processing and detection of balanced codes. KANDOU LABS, Invention Mine, December 1, 2015: US09203402 (1 worldwide citation)

Circuits that are matched to balanced codes may recover transmitted information in a noise resilient and power efficient manner. Circuit components for processing a balanced code may include one or more of: matched amplification of the signals representing the balanced code, matched equalization and ...


6
Amin Shokrollahi: Vector signaling with reduced receiver complexity. KANDOU LABS, Invention Mine, May 29, 2018: US09985745

Methods and apparatuses are described to determine subsets of vector signaling codes capable of detection by smaller sets of comparators than required to detect the full code. The resulting lower receiver complexity allows systems utilizing such subset codes to be less complex and require less power ...


7
Amin Shokrollahi: Vector signaling with reduced receiver complexity. Kandou Labs, Invention Mine, June 27, 2017: US09692555

Methods and apparatuses are described to determine subsets of vector signaling codes capable of detection by smaller sets of comparators than required to detect the full code. The resulting lower receiver complexity allows systems utilizing such subset codes to be less complex and require less power ...


8
Armin Tajalli: Lock detector for phase lock loop. KANDOU LABS, Invention Mine, February 27, 2018: US09906358

Methods and systems are described for generating, using a voltage-controlled oscillator (VCO), a plurality of phases of a local clock signal, generating a phase-error signal using a phase comparator receive a phase of the local clock signal and a reference clock signal, and configured to output the ...


9
Richard Simpson, Andrew Kevin John Stewart, Ali Hormati: Clock data alignment system for vector signaling code communications link. Kandou Labs, Invention Mine, February 21, 2017: US09577815

A communications system receiver is described providing automatic timing adjustment of receive data sampling. A concurrently received clock signal is used as both a reference for generation of internal receiver timing signals, and as an exemplar for adjustment of those timing signals to optimize rec ...


10
Efficient Processing and Detection of Balanced Codes. December 1, 2016: US20160352354-A1

Circuits that are matched to balanced codes may recover transmitted information in a noise resilient and power efficient manner. Circuit components for processing a balanced code may include one or more of: matched amplification of the signals representing the balanced code, matched equalization and ...