Method and system for producing a magnetic field signal usable for locating an underground object
First Claim
1. A method for generating a magnetic field signal useable for locating an underground object comprising:
- generating a reference signal having a reference signal frequency substantially equal to the integer multiple of 300 Hz;
receiving an information signal;
encoding the information signal to produce an encoded information signal;
modulating the reference signal with the encoded information signal at a predetermined bit rate to produce the drive signal, the drive signal including the carrier component and at least one information sideband including sideband energy, the encoding and bit rate causing a substantial portion of the sideband energy to be contained between the carrier component frequency and a frequency spaced 50 Hz from the carrier component frequency; and
driving a transponder with the drive signal to generate the magnetic field signal, the magnetic field signal having a magnetic field carrier component equal to the carrier component frequency.
1 Assignment
0 Petitions
Accused Products
Abstract
Transmitted magnetic field signals useable for locating an underground object, and methods and systems for generating the same. The magnetic field signal has desired spectral characteristics. More specifically, the transmitted magnetic field signal includes a carrier component useable for locating an underground object. The carrier component has a carrier component frequency substantially equal to an integer multiple of 300 Hz. This guarantees that the carrier component frequency is substantially equal to an integer multiple of both 50 Hz and 60 Hz. Such a carrier component allows use of maximum information sidebands in environments that often include harmonically derived interference signals at regular 50 Hz (±0.1 Hz) or 60 Hz (±0.1 Hz) intervals caused by power lines. The transmitted magnetic field signal may also include at least one information sideband including sideband energy. A substantial portion of the sideband energy is contained between the carrier component frequency and a frequency spaced 50 Hz from the carrier component frequency.
45 Citations
16 Claims
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1. A method for generating a magnetic field signal useable for locating an underground object comprising:
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generating a reference signal having a reference signal frequency substantially equal to the integer multiple of 300 Hz; receiving an information signal; encoding the information signal to produce an encoded information signal; modulating the reference signal with the encoded information signal at a predetermined bit rate to produce the drive signal, the drive signal including the carrier component and at least one information sideband including sideband energy, the encoding and bit rate causing a substantial portion of the sideband energy to be contained between the carrier component frequency and a frequency spaced 50 Hz from the carrier component frequency; and driving a transponder with the drive signal to generate the magnetic field signal, the magnetic field signal having a magnetic field carrier component equal to the carrier component frequency. - View Dependent Claims (2, 3, 4)
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5. A method for generating a magnetic filed signal useable for locating an underground object comprising:
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generating a reference signal having a reference signal frequency substantially equal to the integer multiple of 300 Hz; receiving an information signal; encoding the information signal to produce an encoded information signal; modulating the reference signal with the encoded information signal at a predetermined bit rate to produce the drive signal, the drive signal including the carrier component and a lower information sideband and an upper information sideband, each of the lower and upper information sideband including respective sideband energy, the encoding and bit rate causing (i.) a substantial portion of the lower sideband energy to be contained between the carrier component frequency and a frequency spaced 50 Hz below the carrier component frequency, and (ii.) a substantial portion of the upper sideband energy to be contained between the carrier component frequency and a frequency spaced 50 Hz above the carrier component frequency; and driving a transponder with the drive signal to generate the magnetic filed signal, the magnetic field signal having a magnetic field carrier component equal to the carrier component frequency. - View Dependent Claims (6, 7, 8)
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9. A system for generating a magnetic filed signal usable for locating an underground object comprising:
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a subsystem to produce a drive signal including a carrier component frequency substantially equal to an integer multiple of 300 Hz; a transponder to generate the magnetic field signal when driven by the drive signal, the carrier component equal to the carrier component frequency; wherein the subsystem comprises; a reference signal generator to produce a reference signal having a reference signal frequency substantially equal to the integer multiple of 300 Hz; at least one sensor to produce an information signal; an encoder to encode the information signal to produce an encoded information signal; a modulator to modulate the reference signal with the encoded information signal at a predetermined bit rate to produce the drive signal, the drive signal including the carrier component and at least one information sideband including sideband energy, the encoder and bit rate causing a substantial portion of the sideband energy to be contained between the carrier component frequency and a frequency spaced 50 Hz from the carrier component frequency; and a transponder to generate the magnetic filed signal when driven by the drive signal, the magnetic filed signal having a magnetic filed carrier component equal to the carrier component frequency. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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Specification