Add to ORKGA method for precise wideband quadrature signal generation is presented. A divide-by-2 stage forms an adjustable phase quadrature signal generator. Its output phase error is converted to an error signal, which feeds back to the quadrature signal generator through an integrator, to correct the output phase difference. Using this method, a phase accuracy better than 0.5° is achieved over 40 MHz to 500 MHz of output frequency without any external tuning. The loop compensates for any circuit and layout mismatches, is not sensitive to distorted input LO signals, and has no inherent high frequency limitation
Abstract—In this paper, a broadband quadrature hybrid is presented. The hybrid comprises a Wilkinson...
The performance of frequency synthesizers with respect to bandwidth and phase noise limits the overa...
Phase-locked loops (PLLs) for ultra-wideband, low noise, and linear frequency ramp synthesis exhibit...
A method for precise wideband quadrature signal generation is presented. A divide-by-2 stage forms a...
A four-way quadrature signals generator with precise phase modulation is presented. It consists of a...
This book describes design techniques for wideband quadrature LO generation for software defined rad...
A method for in-phase (I) and quadrature (Q) signal generation is disclosed. The method may include ...
We present a novel frequency tracking method that exploits the dynamics of injection locking in a qu...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
Frequency multiplication (FM) can be used to design low power frequency synthesizers. This is achiev...
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
This work develops an advanced quadrature-tracking demodulation technique for coherently demodulatin...
A novel technique for wideband injection locking in an LC oscillator is proposed. PLL and injection ...
An apparatus for generating an in-phase/quadrature-phase (I/Q) signal in a wireless transceiver is d...
Low-cost single-phase grid connected converters require synchronization with the grid voltage to obt...
Abstract—In this paper, a broadband quadrature hybrid is presented. The hybrid comprises a Wilkinson...
The performance of frequency synthesizers with respect to bandwidth and phase noise limits the overa...
Phase-locked loops (PLLs) for ultra-wideband, low noise, and linear frequency ramp synthesis exhibit...
A method for precise wideband quadrature signal generation is presented. A divide-by-2 stage forms a...
A four-way quadrature signals generator with precise phase modulation is presented. It consists of a...
This book describes design techniques for wideband quadrature LO generation for software defined rad...
A method for in-phase (I) and quadrature (Q) signal generation is disclosed. The method may include ...
We present a novel frequency tracking method that exploits the dynamics of injection locking in a qu...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
Frequency multiplication (FM) can be used to design low power frequency synthesizers. This is achiev...
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
This work develops an advanced quadrature-tracking demodulation technique for coherently demodulatin...
A novel technique for wideband injection locking in an LC oscillator is proposed. PLL and injection ...
An apparatus for generating an in-phase/quadrature-phase (I/Q) signal in a wireless transceiver is d...
Low-cost single-phase grid connected converters require synchronization with the grid voltage to obt...
Abstract—In this paper, a broadband quadrature hybrid is presented. The hybrid comprises a Wilkinson...
The performance of frequency synthesizers with respect to bandwidth and phase noise limits the overa...
Phase-locked loops (PLLs) for ultra-wideband, low noise, and linear frequency ramp synthesis exhibit...