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Mai, CA

Huy Tuong Mai, Kanata CA

Patent application number	Description	Published
20080238534	PHASE SHIFTING IN DLL/PLL - The disclosure relates to phase shifting in Delay Locked Loops (DLLs) and Phase-Locked Loops (PLLs). A charge pump in the DLL or PLL includes a capacitor connected in parallel to an output node. A primary current switching circuit charges the capacitor with a source current and discharges the capacitor with a sink current. A supplemental source circuit sources a positive phase shift producing current which has a range of magnitudes. A magnitude of the positive phase shift producing current is determined by at least one source selection signal. A supplemental sink circuit for sources a negative phase shift producing current which has a range of magnitudes. A magnitude of the negative phase shift producing current is determined by at least one sink selection signal.	10-02-2008
20080303569	Delay locked loop circuit - The disclosure relates to phase detectors. Charge up and charge down signals that are generated by a phase detector cause i) following detection of a first edge of a reference clock signal, switching on of a switching transistor of sink current; ii) following detection of an edge of a feedback clock signal falling within less than 180 degrees from the first edge, switching on of a switching transistor of source current and switching off of the switching transistor of sink current; and iii) following detection of an edge of another reference signal at a point in time about midway between the first edge and a next similar edge of the reference clock signal has past, switching off of the switching transistor of source current while maintaining the switching transistor of sink current switched off.	12-11-2008
20100156483	DELAY LOCKED LOOP CIRCUIT - The disclosure relates to phase detectors. Charge up and charge down signals that are generated by a phase detector cause i) following detection of a first edge of a reference clock signal, switching on of a switching transistor of sink current; ii) following detection of an edge of a feedback clock signal falling within less than 180 degrees from the first edge, switching on of a switching transistor of source current and switching off of the switching transistor of sink current; and iii) following detection of an edge of another reference signal at a point in time about midway between the first edge and a next similar edge of the reference clock signal has past, switching off of the switching transistor of source current while maintaining the switching transistor of sink current switched off.	06-24-2010

Huy Tuong Mai, Ottawa CA

Patent application number	Description	Published
20110109365	DELAY LOCKED LOOP CIRCUIT - The disclosure relates to phase detectors. Charge up and charge down signals that are generated by a phase detector cause i) following detection of a first edge of a reference clock signal, switching on of a switching transistor of sink current; ii) following detection of an edge of a feedback clock signal falling within less than 180 degrees from the first edge, switching on of a switching transistor of source current and switching off of the switching transistor of sink current; and iii) following detection of an edge of another reference signal at a point in time about midway between the first edge and a next similar edge of the reference clock signal has past, switching off of the switching transistor of source current while maintaining the switching transistor of sink current switched off.	05-12-2011

Sabine Mai, Winnipeg CA

Patent application number	Description	Published
20100143903	Methods of Detecting and Monitoring Cancer Using 3D Analysis of Centromeres - The present application relates to a method of detecting and monitoring cancer or precancer in a cell using three-dimensional analysis to assess centromere organization. In addition, the application relates to a method and system for characterizing the 3D organization of centromeres.	06-10-2010

Serge Mai, Montreal CA

Patent application number	Description	Published
20100282122	QUASI SELF-CONTAINED ENERGY STORAGE AND POWER SUPPLY SYSTEM - Quasi-autonomous system of energy storage and electrical motorization that can be installed on carrying axles or bogies of railway cars or road trailers to provide a tractive effort or electrical braking without an external power supply and assemblies, convoys and trains. The recharging energy of the energy storage system is principally obtained from regenerative braking and generated by the inertia of the convoy or by the traction of the convoy motor coach; the stored energy is returned as tractive effort when necessary. The system has a controller independent of all external control.	11-11-2010

Steven W. Mai, Cambridge CA

Patent application number	Description	Published
20100108467	APPARATUS, SYSTEM AND METHOD FOR MOVING A VEHICLE FROM DUAL BELT CONVEYOR TO DUAL BELT CONVEYOR - A system and method for transferring a vehicle from a first dual belt conveyor to a second dual belt conveyor utilizes transitions between the belts of the first and second conveyors which are offset along a direction of travel. The offset transitions result in only one wheel of the vehicle at a time crossing a transition. The transitions utilize fixed rollers positioned on either side of a plurality of recirculation rollers. The fixed rollers minimize the gap between the ends of the belts and the transitions while permitting the belts, particularly with cleats, to pass by the fixed rollers.	05-06-2010

Tony Mai, Kanata CA

Patent application number	Description	Published
20090086876	Start up circuit for delay locked loop - An initialization circuit in a delay locked loop ensures that after power up or other reset clock edges are received by a phase detector in the appropriate order for proper operation. After reset of the delay locked loop, the initialization circuit assures that at least one edge of a reference clock is received prior to enabling the phase detector to increase (or decrease) the delay in a delay line. After at least one edge of a feedback clock is received, the initialization circuit enables the phase detector to decrease (or increase) the delay in a delay line.	04-02-2009
20100109722	INTIALIZATION CIRCUIT FOR DELAY LOCKED LOOP - An initialization circuit in a delay locked loop ensures that after power up or other reset clock edges are received by a phase detector in the appropriate order for proper operation. After reset of the delay locked loop, the initialization circuit assures that at least one edge of a reference clock is received prior to enabling the phase detector to increase (or decrease) the delay in a delay line. After at least one edge of a feedback clock is received, the initialization circuit enables the phase detector to decrease (or increase) the delay in a delay line.	05-06-2010
20100182059	SIMPLIFIED BIAS CIRCUITRY FOR DIFFERENTIAL BUFFER STAGE WITH SYMMETRIC LOADS - A biasing circuit for biasing differential delay elements is provided. The circuit is a feedback-free circuit consisting of a CMOS output stage having a P-type transistor and an N-type transistor, with a diode connected transistor between the P-type transistor and the N-type transistor, the output stage receiving the control voltage as input, and producing the V	07-22-2010