Radar level gauging using frequency modulated pulsed wave
First Claim
1. A method of providing low power Multiple Frequency Pulsed Wave measurement of a distance to a surface of a product kept in a tank, said method comprising:
- transmitting low power electromagnetic transmit signals towards said surface,receiving electromagnetic return signals reflected at said surface,determining said distance based on an initially estimated distance and a relationship between said transmit signals and said return signals,said transmit signals being formed as a pulse train of distinct carrier wave pulses having a duration greater than 1 microsecond and shorter than 100 milliseconds,said pulse train having an average duty cycle of less than 50 percent,each pulse having a defined center frequency, selected according to a frequency scheme within a predetermined frequency range,said predetermined frequency range being greater than 5% of an average center frequency,determining actual phase properties of each distinct pulse received in relation to each corresponding distinct pulse transmitted,determining, based on said initially estimated distance, expected phase properties of each received distinct pulse in relation to each corresponding transmitted distinct pulse, andcorrelating said actual phase properties with said expected phase properties to provide an updated estimation of said distance.
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Abstract
A method for measurement of a distance to a surface of a product kept in a tank method comprises transmitting a pulse train of distinct carrier wave pulses having a duration greater than 1 microsecond and shorter than 100 milliseconds, the pulse train has an average duty cycle of less than 50 percent, each pulse has a defined center frequency, selected according to a frequency scheme within a predetermined frequency range, greater than 5% of an average center frequency. The method further comprises correlating actual phase properties of received pulses with expected phase properties to provide an updated estimation of the distance.
The present invention is based on transmitting a set of carrier wave pulses, each having a distinct frequency selected within a frequency range. The method is therefore referred to as a Frequency Modulated Pulsed Wave (FMPW).
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Citations
25 Claims
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1. A method of providing low power Multiple Frequency Pulsed Wave measurement of a distance to a surface of a product kept in a tank, said method comprising:
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transmitting low power electromagnetic transmit signals towards said surface, receiving electromagnetic return signals reflected at said surface, determining said distance based on an initially estimated distance and a relationship between said transmit signals and said return signals, said transmit signals being formed as a pulse train of distinct carrier wave pulses having a duration greater than 1 microsecond and shorter than 100 milliseconds, said pulse train having an average duty cycle of less than 50 percent, each pulse having a defined center frequency, selected according to a frequency scheme within a predetermined frequency range, said predetermined frequency range being greater than 5% of an average center frequency, determining actual phase properties of each distinct pulse received in relation to each corresponding distinct pulse transmitted, determining, based on said initially estimated distance, expected phase properties of each received distinct pulse in relation to each corresponding transmitted distinct pulse, and correlating said actual phase properties with said expected phase properties to provide an updated estimation of said distance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A Multiple Frequency Pulsed Wave radar level gauging system, for detecting a distance to a surface of a product in a tank, said system comprising:
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a transceiver for transmitting low power electromagnetic transmit signals and receiving electromagnetic return signals reflected at said surface, processing circuitry for determining said distance based on an initially estimated distance and a relationship between said transmit signals and said return signals, said transceiver being arranged to form said transmit signals as a pulse train of distinct carrier wave pulses having a duration greater than 1 microseconds and shorter than 100 milliseconds, said pulse train having an average duty cycle of less than 50 percent, each pulse having a defined center frequency, selected according to a frequency scheme within a predetermined frequency range, said predetermined frequency range being greater than 5% of an average center frequency, said processing circuitry being arranged to; determine actual phase properties of each distinct pulse received in relation to each corresponding distinct pulse transmitted, determine, based on said initially estimated distance, expected phase properties of each received distinct pulse in relation to each corresponding transmitted distinct pulse, and correlate said actual phase properties with said expected phase properties to provide an updated estimation of said distance. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25)
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Specification