Method for increasing the interference resistance of a time frame reflectometer and a circuit device of implementing said method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-027/04
G01R-031/11
G01R-031/08
G01S-013/08
G01S-013/00
출원번호
US-0089092
(2000-10-15)
우선권정보
DE-199 49 992(1999-10-15)
국제출원번호
PCT/EP00/010137
(2000-10-15)
§371/§102 date
20020807
(20020807)
국제공개번호
WO01/029521
(2001-04-26)
발명자
/ 주소
Cramer,Stefan
Hertel,Markus
Krieger,Bernd
출원인 / 주소
Endress + Hauser GmbH + Co. KG
대리인 / 주소
Bacon &
인용정보
피인용 횟수 :
3인용 특허 :
8
초록▼
The invention relates to methods and a circuit for increasing the interference resistance of a time frame reflectometer, in particular with respect to high frequency irradiation. A transmitted pulse (XS) is generated at a pulse repeater frequency (fprf) and coupled to a wave guide (4). A return sign
The invention relates to methods and a circuit for increasing the interference resistance of a time frame reflectometer, in particular with respect to high frequency irradiation. A transmitted pulse (XS) is generated at a pulse repeater frequency (fprf) and coupled to a wave guide (4). A return signal (Xprobe) is returned to the wavwguide (4) by a reflector (14) which is connected to said waveguide (4) and is scanned for time-expanded representation as a reflection profile with scan pulses (XA) which are repeated at a scan frequency (fA) and measurement values are continuously calculated from said reflection profiles, expressing the distance from the reflector (14) to the process connection. The scanning frequency (fA) and the pulse repeater frequency (fprf) are altered and either the expanded time representation of the reflection profile remains unchanged or when a time change occurs in the reflection profile and said change in time expansion is and taken into account in evaluating the profile, whereby an interference factor is determined from at least one measurement of said reflection profile. In order to decide on the usability of the measurement values, an algorithm is used to calculate on the basis of the measured values said interference to the extent that sufficient measuring accuracy is attained. A circuit arrangement comprising a trigger generator (1) is used to implement the method.
대표청구항▼
The invention claimed is: 1. A method for increasing the interference resistance of a time domain reflectometer, comprising the steps of: generating a transmission pulse at a pulse repetition frequency; coupling said transmission pulse into a waveguide; scanning a reflected signal which is reflecte
The invention claimed is: 1. A method for increasing the interference resistance of a time domain reflectometer, comprising the steps of: generating a transmission pulse at a pulse repetition frequency; coupling said transmission pulse into a waveguide; scanning a reflected signal which is reflected back by a reflector in contact with the waveguide, for time-expanded display as a reflection profile with scanning pulses repeated at a scanning frequency; continuously obtaining measured values, from said reflection profiles, that contain the distance of the reflector to a process terminal; and using an algorithm for deciding the usability of said measured values, which from said measured values and the amount of interference calculates whether said reflection profile is sufficiently free of interference that adequate measurement accuracy is achieved, wherein: said scanning frequency and said pulse repetition frequency are varied; the time-expanded display of said reflection profiles remains unchanged, or if said reflection profiles change over time, the change in the time expansion is known and is taken into account in the evaluation of the profiles; and the amount of interference is determined from at least one measurement of said reflected profiles or a part thereof. 2. The method as defined in claim 1, wherein the algorithm comprises the following steps: varying said scanning frequency and said pulse repetition frequency, if the amount of interference exceeds a predetermined threshold; subsequent to said step of varying said scanning-frequency and said pulse repetition frequency, determining and assessing again the amount of interference; and repeating said step of varying said scanning-frequency and said pulse repetition frequency and said subsequent determining and assessing step until the amount of interference is below said predetermined threshold. 3. The method as defined in claim 2, further comprising the step of: providing a predetermined table which contains suitable frequencies used for determining the variation in said scanning frequency and said pulse repetition frequency, wherein access to said predetermined table is one of: linear and random. 4. The method as defined in claim 3, further comprising the step of: selecting said scanning frequency and said pulse repetition frequency from a frequency range for the purpose of changing said scanning frequency and said pulse repetition frequency. 5. The method as defined in claim 1, wherein said pulse repetition frequency is varied by means of one of: a voltage controlled oscillator and a numerically controlled oscillator. 6. The method as defined in claim 5, further comprising the steps of: providing a controllable delay circuit supplied with a reference signal at said pulse repetition frequency, and generating an output signal; determining the delay in said output signal by a predetermined set-point delay value, with which the controllable delay circuit is controlled; and obtaining a scanning trigger signal from a transmission trigger signal by means of the controllable delay circuit. 7. The method as defined in claim 1, wherein the amount of interference is obtained by a comparison of the pulse associated with said reflected profiles with a predetermined reference pulse. 8. The method as defined in claim 1, wherein the amount of interference is obtained by one of: a difference between a maximum and minimum deviation in said reflection profiles from a predetermined value, and a difference between a maximum and minimum deviation from a reference profile in a predetermined time slot or spacing slot. 9. The method as defined in claim 1, wherein the frequency and/or phase of said scanning pulses, upon a variation in said pulse repetition frequency, is adapted such that a difference between said scanning frequency and said pulse repetition frequency does not exceed a predetermined range or is constant. 10. A method for increasing the interference resistance of a time domain reflectometer, comprising the steps of: generating a transmission pulse at a pulse repetition frequency; coupling said transmission pulse into a waveguide; scanning a reflected signal which is reflected back by a reflector in contact with the waveguide, for time-expanded display as a reflection profile with scanning pulses repeated at a scanning frequency; continuously obtaining measured values, from said reflection profiles, that contain the distance of the reflector to a process terminal; and using an algorithm for deciding the usability of said measured values, said algorithm comprising: varying said scanning frequency and said pulse repetition frequency; applying the time-expanded display of said reflection profiles which remains unchanged, or if said reflection profiles change over time, applying the change in the known time expansion where the change is taken into account in the evaluation of the profiles; determining the amount of interference and obtaining the measured value from the measurement of said reflected profiles or a part thereof; and checking the usability of the measured value by evaluating the amount of interference, and continuing with the step of varying said scanning frequency and said pulse repetition frequency. 11. The method as defined in claim 10, wherein the algorithm comprises the following further steps: executing the steps of claim 10 multiple times; and selecting the most likely measured value from the measured values determined in said step of executing the steps of claim 10 multiple times and using that value. 12. A circuit arrangement for increasing the interference resistance of a time domain reflectometer, comprising: a trigger generator for generating a transmission trigger signal with a variable pulse repetition frequency that is variable by a control signal, and a scanning trigger signal with a frequency and/or phase difference from said transmission trigger signal; a scanning generator for generating transmitting and scanning pulses, respectively caused by said transmitting and said scanning trigger signal; a scanning unit capable of scanning said transmission pulses which are returned from a waveguide for time-expanding display as a reflection profile; and a control unit for evaluating said reflection profile and generating said control signal which adjusts the phase or frequency difference between said trigger signals, and with which said trigger generator is made to vary said variable pulse repetition frequency, said control unit including an algorithm capability for calculating interference of the reflected profile for determining measurement accuracy. 13. The circuit arrangement as defined in claim 12, wherein said trigger generator includes a controlled oscillator which is controlled by one of: voltage and numerical, and which oscillates at said variable pulse repetition frequency. 14. The circuit arrangement as defined in claim 13, wherein said trigger generator includes a controllable delay circuit which is subjected to the output signal of said controlled oscillator, and whose output signal represents said scanning trigger signal. 15. The circuit arrangement as defined in claim 13, further comprising: a regulator, and wherein said trigger generator further includes a further controlled oscillator which oscillates at a scanning frequency, and optionally the difference in frequencies of the oscillations of both controlled oscillators is set to a predetermined value by said regulator and kept constant. 16. The circuit arrangement as defined in claim 15, wherein said oscillators are embodied as an oscillator bank in order to furnish a constant frequency difference between said variable pulse repetition frequency and the scanning frequency.
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