Patent ID: 8920326
Filing Date: 2014-12-30
Classification: G01S,H03D

Abstract:
1. A circuit comprising: a first mixer coupled to receive an input signal, the first mixer to multiply the input signal with a first square wave to generate a first product, the first square wave having a first frequency, a first amplitude, and a first phase; a second mixer coupled to receive the input signal, the second mixer to multiply the input signal with a second square wave to generate a second product, wherein a frequency of the second square wave equals the first frequency, and a phase of the second square wave leads the first phase by a first value; a third mixer coupled to receive the input signal, the third mixer to multiply the input signal with a third square wave to generate a third product, wherein a frequency of the third square wave equals the first frequency, and a phase of the third square wave lags the first phase by a second value; and a combiner coupled to receive the first product, the second product and the third product, the combiner to generate a first sum of the first product, the second product and the third product, wherein each of the first value and the second value equals forty five degrees, whereby third and fifth harmonics of the first square wave are canceled and the first sum is rendered free of mixing products due to the third and fifth harmonics of the first square wave, wherein the first product is generated with a first gain, the second product is generated with a second gain equaling (1/√2) times the first gain, and the third product is generated with a third gain equaling (1/√2) times the first gain, wherein √ represents a square-root operation, wherein the input signal is a sinusoid representing a reflection of a continuous wave (CW) ultrasound signal from an object, wherein the CW ultrasound signal is a sinusoid having the first frequency; a clock generator to receive a square wave as an input clock, the clock generator operating to generate each of a plurality of clocks with a corresponding phase, each of the plurality of clocks having a square wave shape, wherein each of the first square wave, the second square wave and the third square wave are comprised in the plurality of clocks; wherein phases of clocks in the plurality of clocks are spaced at forty five degrees, a fourth mixer coupled to receive the input signal, the fourth mixer to multiply the input signal with a fourth square wave to generate a fourth product, the fourth square wave having the first frequency, the first amplitude, and a fifth phase; a fifth mixer coupled to receive the input signal, the fifth mixer to multiply the input signal with a fifth square wave to generate a fifth product, wherein a frequency of the fifth square wave equals the first frequency, and a phase of the fifth square wave leads the fifth phase by a third value; a sixth mixer coupled to receive the input signal, the sixth mixer to multiply the input signal with a sixth square wave to generate a sixth product, wherein a frequency of the sixth square wave equals the first frequency, and a phase of the sixth square wave lags the fifth phase by a fourth value, wherein the fourth square wave, the fifth square wave and the sixth square wave are comprised in the plurality of clocks, wherein the combiner is coupled also to receive the fourth product, the fifth product, and the sixth product, and to add a second sum of the fourth product, the fifth product and the sixth product to the first sum to generate a third sum, whereby the third sum represents a result of a mixing operation of the input signal with a seventh square wave having a phase that leads or lags the phase of one of the plurality of clocks by 22.5 degrees, whereby the third sum is rendered free of mixing products due to the third and fifth harmonics of the seventh square wave.