SU1076845A1 - Magnetometer having digital data registering capability - Google Patents

Description

The invention relates to magnetic measurements and can be used in geophysical surveys. A digital data recording magnetometer is known, which contains a nuclear-precessional transducer for magnetic field-to-frequency induction, a frequency converter for digital code, and a recording device ti. However, the measurement accuracy of the indicated magnetometer is insufficient. The closest in technical essence to the proposed one is a magnetometer with digital data recording, which implements a well-known method of separate registration of a regional field and local anomalies, containing a primary transducer, two calculators and a recorder associated with the primary transducer through computers, the output of which It is also connected to the second input of the second calculator. The first calculator, using the method of a moving average on large stretches, determines the regional The field, and the second one, calculates local anomalies as the difference between the kemer values or the values calculated by the regional field G23. However, the accuracy of the known magnetometer is insufficient, since uncentrated local anomalies distort the regional field, which leads to large errors in the calculation of local anomalies. In addition, the calculated values are large latency times. The purpose of the invention is to increase accuracy and speed. The goal is achieved by the fact that the magnetometer containing the primary converter has two calculators and a recorder connected to the primary converter through the first calculator, the output of the second of which is also connected to the second inputs of the first calculator and the recorder, is entered between the primary transducer and the second transmitter, and the series-connected extrapolator and analyzer, the second input of which is connected to the primary transducer, and the output is connected to the second input of the input unit, you od which through extrapolation torus connected to the second input of the second calculator mu. The drawing shows a functional diagram of a magnetometer. - The magnetometer contains the primary converter 1, the 2 input block, the calculator 3 and 4, the extrapolator 5, the analyzer b and the recorder 7. The magnetometer operates in cycles. During the cycle, the primary converter 1, made in the form of a magnetic field to frequency converter and a frequency converter into a digital code, converts the value of the magnetic field into a digital code. The converted values are transferred to input block 2, the main function of which is the initial and repeated data entries to extrapolator 5. During the initial input cycles, data from the primary converter 1 through input block 2 receives the extrapolator 5, in which, based on the examination of the data in In several clocks, the most probable data values are computed in subsequent clocks. The values from extrapolator 5, together with the values from primary converter 1, go to analyzer b, in which the nature of the data changes at both its inputs is compared. If the nature of the input data change coincides with the nature of the extrapolated data change, the control signal from the analyzer 6 allows the data from the primary converter 1 to pass through the input block 2 to the extrapolator 5, if it is different, then the control signal from the analyzer b stops the data flow through the block 2 inputs to the extrapolator 5. In the latter case, for a certain number of cycles, the extrapolator 5 will work autonomously and provide extrapolated data to the analyzer 6. This state will be under held either until the nature of the change in the input data again becomes the same as the nature of the change in the extrapolated data, or (if this does not happen} until the specified number of cycles passes. After the nature of the change in the input data will begin to coincide with the nature of the extrapolated data change, the control signal from the analyzer b will allow the data to pass to extrapolator 5 and then the work will proceed as described above. In the second case, after a predetermined number of cycles of the input unit 2 has elapsed, data will be re-entered into extrapolator 5, and then the work will proceed as the initial input. Thus, the data from input block 2 excludes data from those areas in which the nature of the input data changes is excluded from the nature of the extrapolated data, i.e., data from local anomalies are excluded. At the same time, the data from block 2 input and extrapolator 5

arrive at the calculator 3, in which the regional field is calculated using the moving average method, and when no data is received from the input unit 2, data from the extrapolator 5 is used. From the calculator 3, the regional field values go to recorder 7 and to the calculator 4, The second input of the calculator 4 is supplied with data from the primary converter 1. In calculator 4, local anomalies are calculated as the difference between the measured values and the calculated regional field. Output data from the transmitter 4 is fed to the second input of the recorder 7.

In the proposed magnetometer, a higher accuracy of the calculation of the regional field is achieved due to the fact that the data from the transmitter 3 excludes data from the sections where there are local anomalies. This, in turn, leads to an increase in the accuracy of the calculation of local anomalies.

In addition, significantly faster performance is achieved, since in the magnetometer the calculation of both the regional field values and local anomalies is performed immediately after the input data is received. Due to this, the proposed magnetometer can operate on a time scale.

Claims (1)

(5J) DIGITAL DATA RECORDING MAGNETOMETER, comprising a primary converter, two calculators and a recorder connected to the primary converter through the first calculator, the output of the second of which is connected to the second inputs of the first calculator and recorder, characterized in that, in order to increase accuracy and speed, it introduced an input unit ^ connected between the primary converter and the second calculator, and the extrapolator and analyzer connected in series, the second input of which is connected to the primary photoelectret, and an output connected to a second input of the input unit, the output of which through extrapolator podklyu'chen to the second input of the second vychis'litelya.