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Claims  |
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I claim:
1. A sustaining device for prolonging the vibration of a string of a
stringed musical instrument, the sustaining device comprising:
a magnetic driver means to generate external magnetic flux to drive
vibrations of said string,
a first magnetic pickup means responsive to external magnetic flux
generated by said driver for producing a first pickup signal,
a second magnetic pickup means responsive to external magnetic flux
generated by said driver and responsive to magnetic flux caused by
vibration of said string for producing a second pickup signal,
an amplifier means for amplifying a joint pickup signal from said first and
said second pickup means to produce a drive signal connected to said
driver means to enable said driver means to generate said external
magnetic flux for sustaining vibrations of said string,
an amplitude adjustment means to adjust amplitudes of at least one of said
first and said second pickup signals for reducing the difference between
the amplitude of said first pickup signal and the amplitude of said second
pickup signal when said string is not vibrating, thereby equalizing the
amplitudes of the contributions of said external magnetic flux to said
first and said second pickup signals,
a phase adjustment means to phase shift at least one of said first and said
second pickup signals for reducing the variation in the relative phase
between said first and said second pickup signals over a range of
operating signal-frequencies of said first and said second magnetic
pickups, and
a combining means to combine the phase-shifted and amplitude-adjusted first
and second pickup signals for producing said joint pickup signal
therefrom, wherein the contribution of said external magnetic flux to said
first pickup signal is subtracted from the contribution of said external
magnetic flux from said second pickup signal, thereby reducing the effects
of direct magnetic feedback from said driver means.
2. The sustaining device of claim 1 wherein said phase-adjustment means
comprises a resistor connected in series with one or both of said first
and said second magnetic pickup means.
3. The sustaining device of claim 1 wherein said phase-adjustment means
comprises an inductor connected in series with one or both of said first
and said second magnetic pickup means.
4. The sustaining device of claim 1 wherein said first pickup signal
further comprises response of said first pickup means to said magnetic
flux caused by vibration of said string, and said combining means
combining said phase-shifted and amplitude-adjusted first and second
pickup signals for producing a joint pickup signal comprising a portion of
at least one of said response of said first magnetic pickup means to the
vibration of said string and said response of said second magnetic pickup
means to the vibration of said string.
5. The sustaining device of claim 1 wherein said first and said second
magnetic pickups are placed substantially equidistant to said driver.
6. The sustaining device of claim 5 wherein said first magnetic pickup
means is placed beneath said second magnetic pickup means.
7. The sustaining device of claim 6 wherein said first magnetic pickup
means comprises one or more coils wrapped around a ferromagnetic core and
said second magnetic pickup means comprises one or more additional coils
wrapped around said ferromagnetic core.
8. The sustaining device of claim 1 wherein said first magnetic pickup
means is placed beneath the playing surface of said stringed musical
instrument.
9. The sustaining device of claim 1 wherein said first magnetic pickup
means comprises one or more coils wrapped around a ferromagnetic core,
said second magnetic pickup means comprises one or more additional coils
wrapped around said core, said core being curved or otherwise shaped so
that endpoles of said core are in close proximity to said string.
10. The sustaining device of claim 1 wherein said magnetic driver means
comprises at least one ferromagnetic core and at least one coil wrapped
around said core(s), said core(s) being shaped so that endpoles of said
core(s) are in close proximity to said string for producing a magnetic
dipole in the air between said endpoles that is concentrated at said
string, and said coil(s) being wrapped around said core(s) wherein said
coil(s) cover all of said core except near said endpoles for confining
said magnetic dipole between said endpoles, thereby providing improved
interaction between said magnetic flux and said string.
11. The sustaining device of claim 10 wherein said driver means comprises
two or more coils wrapped around said core, said sustaining device further
comprising a splitting means for splitting said drive signal into two or
more split drive signals, each of said coils receiving one of said split
drive signals.
12. The sustaining device of claim 11 further comprising a connecting means
for providing a drive signal to said string to produce electrical current
in said string that interacts with said external magnetic flux for driving
vibrations of said string, thereby providing a driving force in two
orthogonal planes for driving said string's vibrations.
13. The sustaining device of claim 12 further comprising a grounding means
comprising a grounded fretboard, said fretboard comprising electrically
conductive frets connected to electrical ground, said string being
electrically open except when in contact with one of said frets thereby
allowing electrical current to flow in said string, hence allowing said
interaction between said electrical current and said magnetic flux to
drive said string's vibrations while said string is in contact with one of
said frets.
14. The sustaining device of claim 13 wherein said sustaining device is one
of a plurality of identical sustaining devices, each of said plurality of
identical sustaining devices associated with one string for sustaining
vibrations thereof, each of said plurality of sustaining devices further
comprising
a positioning means for positioning said first and said second pickup means
equidistant to each driver means of said plurality of identical sustaining
devices for providing said first and said second pickup means with
substantially equal magnitudes of total external magnetic flux generated
by the sum of each said driver means of said plurality of identical
sustaining devices, thereby reducing magnetic interference between said
plurality of sustaining devices and
an automatic level control means to control the amplitude of said drive
signal for controlling the amplitude of vibrations of said string thereby
reducing damping of said string's vibrations caused by external magnetic
flux generated by each said driver means of said plurality of separate
sustaining devices.
15. A sustaining device for prolonging the vibration of a string of a
stringed musical instrument, the sustaining device comprising
a pickup means responsive to vibration of said string for producing an
electrical pickup signal,
an amplifier means for amplifying said electrical pickup signal for
producing an electrical drive signal, and
a magnetic driver means for receiving said electrical drive signal to
generate a concentrated external magnetic flux to sustain vibrations of
said string, said magnetic driver comprising at least one ferromagnetic
core and at least one coil wrapped around said core(s), said core(s) being
shaped so that endpoles of said core(s) are in close proximity to said
string for producing a magnetic dipole in the air between said endpoles
that is concentrated at said string, and said coil(s) being wrapped around
said core(s) wherein said coil(s) cover all of said core except said
endpoles for confining said magnetic dipole between said endpoles, thereby
providing improved interaction between said magnetic flux and said string.
16. The sustaining device of claim 15 further comprising magnetic shielding
material wrapped around said core for improving the confinement of said
magnetic dipole between said endpoles.
17. A sustaining device for prolonging the vibration of a string of a
stringed musical instrument, the sustaining device comprising
a magnetic pickup means responsive to external magnetic flux and responsive
to vibration of said string for producing a pickup signal,
an amplifier means to amplify said pickup signal for producing a drive
signal,
a splitting means for splitting said drive signal into a first drive signal
and a second drive signal,
a first magnetic driver means in magnetic proximity to said magnetic pickup
means, said first magnetic driver means receiving a phase-shifted
amplitude-adjusted first drive signal for generating a first external
magnetic flux to drive said string,
a second magnetic driver means in magnetic proximity to said magnetic
pickup means, said second magnetic driver means receiving said second
drive signal or a phase-shifted amplitude-adjusted second drive signal for
generating a second external magnetic flux to drive said string,
an amplitude adjustment means to adjust amplitudes of at least one of said
first and said second drive signals for reducing the difference between
the magnitudes of said first and said second external magnetic flux
received by said magnetic pickup means, and
a phase adjustment means to phase-shift at least one of said first and said
second drive signals to compensate for phase variations with respect to
frequency between said first and said second drive signals for producing a
predetermined phase relationship wherein the variation in relative phase
between said first and said second external magnetic flux is reduced over
a range of operating signal frequencies of said sustaining device, and the
response of said magnetic pickup means to said first magnetic flux
subtracts from the response of said magnetic pickup means to said second
magnetic flux, thereby reducing the contributions of said first and said
second external magnetic flux to said pickup signal.
18. The sustaining device of claim 17 wherein said predetermined phase
relationship is substantially 180 degrees.
19. The sustaining device of claim 17 wherein said magnetic pickup means
comprises a first magnetic pickup means and a second magnetic pickup
means, said first magnetic pickup means being responsive to said first and
said second external magnetic flux and responsive to vibration of said
string for producing a first pickup signal, and said second magnetic
pickup means being responsive to said first and said second external
magnetic flux and responsive to vibration of said string for producing a
second pickup signal, said sustaining device further comprising summing
means for combining said first and said second pickup signals such that
said responses of said first and said second magnetic pickup means to a
magnetic flux caused by vibration of said string add, and said responses
of said first and said second pickup means to said first and said second
external magnetic flux cancel.
20. A sustaining device for prolonging the vibration of a string of a
stringed musical instrument, the sustaining device comprising
a pickup means responsive to vibration of said string for producing a
pickup signal,
an amplifier means to amplify said pickup signal for producing a drive
signal,
a magnetic driver means to receive said drive signal to produce an external
magnetic flux for driving vibrations of said string in a first plane of
oscillation, and
a connecting means for providing said drive signal to said string to
produce electrical current in said string that interacts with said
external magnetic flux for driving vibrations of said string in a second
plane of oscillation that is orthogonal to the first plane of oscillation,
thereby providing a driving force to said string that is in two orthogonal
directions for driving said string's vibrations in their natural
elliptical motion.
21. The sustaining device of claim 20 wherein said connecting means
comprises an electrically conductive element coupled between the output of
said magnetic driver means and said string for providing electrical
current to said string.
22. The sustaining device of claim 21, further comprising a grounded
fretboard, said grounded fretboard comprising electrically conductive
frets connected to electrical ground, said string being electrically open
except when in contact with one of said frets for allowing sustained
vibrations of said string while said string is in contact with one of said
frets.
23. The sustaining device of claim 22 further comprising an isolation means
to electrically isolate said string from other strings of said stringed
musical instrument.
24. The sustaining device of claim 20 further comprising a cancellation
means for canceling responses of said pickup means to said external
magnetic flux generated by said magnetic driver means and magnetic flux
generated by said electrical current in said string.
25. A sustaining device for prolonging the vibration of a string of a
stringed musical instrument, the sustaining device comprising
a pickup means responsive to vibration of said string for producing a
pickup signal,
an amplifier means to amplify said pickup signal for producing a drive
signal,
a magnetic driver means to receive said drive signal to produce an external
magnetic flux for driving vibrations of said string in a first plane of
oscillation, and
a connecting means for providing DC-level current to said string so that
said current interacts with said external magnetic flux for driving
vibrations of said string in a second plane of oscillation that is
orthogonal to the first plane of oscillation, thereby driving said
string's vibrations in an elliptical motion.
26. The sustaining device of claim 25, further comprising a conductive
fretboard, said conductive fretboard comprising electrically conductive
frets connected to a terminal of a power supply, and an additional
connecting means connecting said string to a power input terminal of said
amplifier means.
27. The sustaining device of claim 26 further comprising an isolation means
to electrically isolate said string from other strings of said stringed
musical instrument.
28. The sustaining device of claim 25 further comprising a cancellation
means for canceling responses of said pickup means to said external
magnetic flux generated by said magnetic driver means.
29. A sustaining device for prolonging the simultaneous vibration of a
plurality of strings of a stringed musical instrument, the sustaining
device comprising a plurality of separate sustaining devices, each of said
plurality of separate sustaining devices associated with one string for
sustaining vibrations thereof, each of said sustaining devices comprising
a magnetic driver means to generate external magnetic flux for sustaining
vibrations of said one string,
a first magnetic pickup means responsive to said external magnetic flux
generated by said driver means for producing a first pickup signal,
a second magnetic pickup means responsive to said external magnetic flux
generated by said driver means and responsive to magnetic flux caused by
vibration of said string for producing a second pickup signal,
an amplifier means to amplify a joint pickup signal resulting from
combining said first and said second pickup signals for producing a drive
signal, said drive signal being imparted to said driver means for
generating said external magnetic flux,
a positioning means for positioning said first and said second pickup means
equidistant to each driver means of said plurality of separate sustaining
devices for providing said first and said second pickup means with
substantially equal magnitudes of total external magnetic flux generated
by the sum of said drivers,
an amplitude adjustment means to adjust the amplitudes of at least one of
said first and second pickup signals for reducing the difference between
the amplitude of said first pickup signal and the amplitude of said second
pickup signal when said one string is not vibrating, thereby equalizing
the amplitudes of the contributions of said total external magnetic flux
to said first and said second pickup signals,
a phase adjustment means to phase shift at least one of said first and said
second pickup signals for producing a predetermined phase relationship
between said first and said second pickup signals that reduces the
frequency-dependent phase variation between said first and second pickup
signals over a range of operating signal-frequencies of said first and
said second magnetic pickups,
a combining means to combine said phase-shifted amplitude-adjusted first
and said second pickup signals for producing said joint pickup signal
therefrom, wherein the contribution of said total external magnetic flux
to said first and said second pickup signals cancels, thereby reducing the
effects of magnetic interaction between said plurality of separate
sustaining devices, and
an automatic level control means to control the amplitude of said drive
signal for controlling the amplitude of vibrations of said one string
thereby reducing damping of said string's vibrations caused by external
magnetic flux generated by drivers of other said plurality of separate
sustaining devices.
30. A sustaining device for prolonging the simultaneous vibration of a
plurality of strings of a stringed musical instrument, the sustaining
device comprising
a plurality of magnetic drivers wherein each of said plurality of magnetic
drivers receives one of a plurality of drive signals to generate an
external magnetic flux for driving vibrations of one of said plurality of
strings,
a first magnetic pickup means responsive to external magnetic flux
generated by said plurality of drivers for producing a first pickup
signal,
a second magnetic pickup means responsive to said external magnetic flux
generated by said plurality of drivers and responsive to magnetic flux
caused by vibration of said strings for producing a second pickup signal,
an amplitude adjustment means to adjust amplitudes of at least one of said
first and said second pickup signals for reducing the difference between
the amplitude of said first pickup signal and the amplitude of said second
pickup signal when said string is not vibrating, thereby equalizing the
amplitudes of the contributions of said external magnetic flux generated
by said plurality of drivers to said first and said second pickup signals,
a phase adjustment means to phase shift at least one of said first and said
second pickup signals for producing a predetermined phase relationship
that reduces the frequency-dependent phase variations between said first
and said second pickup signals over a range of operating
signal-frequencies of said first and said second magnetic pickups,
a combining means to combine said phase-shifted amplitude-adjusted first
and said second pickup signals for producing said joint pickup signal
therefrom, wherein the contribution of said external magnetic flux
generated by said plurality of drivers to said first and said second
pickup signals cancels, thereby reducing the effects of direct magnetic
feedback,
a splitting means for splitting said joint pickup signal into a plurality
of split pickup signals,
an amplifier means comprising a plurality of amplifiers, each of said
plurality of amplifiers to amplify each of said plurality of split pickup
signals for producing said plurality of drive signals, and
an automatic level control means comprising a plurality of level
controllers, each of said plurality of level controllers for adjusting the
amplitude of each of said plurality of drive signals to some predetermined
level, thereby reducing damping of each of said plurality of strings
caused by said external magnetic flux generated by said plurality of
drivers.
31. A sustaining device as claimed in claim 30 further comprising a filter
means to apply a frequency-dependent attenuation to one or more of said
plurality of split pickup signals, thereby reducing damping of each of
said plurality of strings caused by external magnetic flux.
32. A hand-held sustaining device for prolonging the vibration of a string
of a stringed musical instrument, the sustaining device comprising
a magnetic driver means to generate external magnetic flux for sustaining
vibrations of said string,
a pickup means responsive to vibrations of said string for producing a
pickup signal,
an amplifier means to amplify said pickup signal for producing a drive
signal, said drive signal being imparted to said driver for generating
said external magnetic flux,
a power supply means to provide electrical power to said amplifier means,
and
an encapsulating means to separate said driver means and said pickup means
from said amplifier means and said power supply means, said driver means
and said pickup means being combined into a first capsule for providing a
compact unit that may be held by a musician near said string, said
amplifier means and said power supply means being combined into a second
capsule, said second capsule being separated from said first capsule to
avoid impeding playing of said instrument by said musician, thereby
providing said musician with a non-cumbersome hand-held sustaining device.
33. A sustaining device as claimed in claim 32 wherein said pickup means is
a magnetic pickup means, and said sustaining device further comprises a
cancellation means for canceling responses of said pickup means to said
external magnetic flux, thereby reducing interference in said pickup
signal due to the response of said pickup means to said external magnetic
flux.
34. A sustaining device as claimed in claim 32 wherein said first capsule
further comprises a pick means for plucking said string.
35. A sustaining device as claimed in claim 32 wherein said first capsule
further comprises a mounting means for mounting a pick means.
36. A sustaining device as claimed in claim 32 wherein said power supply
means comprises a connecting means to a power supply external to said
second capsule.
37. A sustaining device as claimed in claim 32 further comprising a signal
controlling means for altering said pickup signal or said drive signal,
said signal controlling means being contained in one or both said first
and said second capsules.
38. A sustaining device as claimed in claim 37 further comprising means for
selecting operation of said signal controlling means.
39. A sustaining device as claimed in claim 32 further comprising a capsule
mounting means for mounting said second capsule to the body or clothing of
said musician.
40. A sustaining device as claimed in claim 32 further comprising a capsule
mounting means for mounting said first capsule to the body of said
musician.
41. A sustaining device as claimed in claim 32 further comprising a capsule
mounting means for mounting said second capsule to said musical
instrument. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
Musical instruments employing a vibrating mechanical element such as a
string to produce sound have been provided heretofore with transducers
commonly referred to as "pick-ups" for detecting the motion of the
vibrating element and producing an electronic signal representing this
vibration. This pickup signal may be amplified and converted to sound by a
loudspeaker.
The sound produced by instruments of this nature dies out progressively
after the string is excited. The sound can be prolonged if the pickup
signal is amplified and coupled to the vibrating mechanical element of the
instrument by acoustical, electromechanical, or electromagnetic feedback.
Acoustical feedback occurs when the energy in the sound output of the
speakers strikes the vibratory element of the musical instrument, driving
its vibrations. If the sound output is high enough the oscillations of the
vibrating mechanical element will be sustained, However, this approach is
effective only when the sound produced by the amplification of the loud
speaker is extraordinarily loud.
Various attempts have been made to provide a "sustainer" or device capable
of prolonging the notes independently of acoustical feedback from the
environment in which an instrument is played. A typical, prior art
sustaining device 11 is shown in FIG. 1A as including a magnetic pickup
10, a magnetic driver 12, and an amplifier 14 interposed in a circuit
between the pickup 10 and the driver 12. The pickup 10 is typically
comprised of one or more pickup coils, such as pickup coil 13. The driver
12 is typically comprised of one or more driver coils, such as driver coil
15.
The sustain system 11 may be used to sustain the vibrations of a single
string, such as string 8, or a plurality of strings typically found on an
electric guitar. The sustain system is usually disposed on a counter-sunk
portion of the upper surface of the body of the electric guitar so that
the pickup 10 and driver 12 are in magnetic proximity to the string 8 of
the instrument.
The pickup 10 and driver 12 are constructed generally similarly. Both the
pickup 10 and the driver 12 are constructed of a number of turns of a
conductor means, such as wire 13, 15 which is wound around a magnetic core
17, 19, respectively. The cores 17, 19 are generally either a permanent
magnet, or a ferrous material in contact with a permanent magnet, to
provide a permanent magnetic flux through the center of the respective
pickup coil 13 and driver coil 15.
A condition that exists in all prior art sustain systems using a magnetic
pickup and driver in conjunction with an amplifier to sustain string
vibrations is that when the gain of the amplifier 14 is of a sufficiently
high level to achieve sustain of the string 8, a portion of the driver's
12 magnetic field F is present at the pickup 10. The magnetic field F
induces the pickup 10 to create a voltage. The pickup voltage is amplified
and regenerated by the driver 12, which then is picked up by the pickup
10, to induce the pickup 10 to create a greater voltage. This cycle is
known as "system oscillation." The frequency of these oscillations depends
on the resonant frequencies of the electronic components in the feedback
loop and thus has no musical relationship to the string vibration
frequency.
A second problem associated with direct magnetic feedback between the
driver and pickup is the contamination of the pickup signal with noise and
distortion produced by the amplifier means. The presence of amplifier
noise and distortion in the pickup signal produces an unnatural tone when
the pickup is used in conjunction with a loudspeaker to monitor the tone
produced by the vibrating string.
One common solution to the problem of direct magnetic feedback is to
decrease the gain of the amplifier. However, this decrease in amplifier
gain reduces the ability of the system to pickup and sustain slight string
vibrations. Also, it takes longer for the oscillations of the string to
build up to their steady-state amplitude.
Another prior art solution to the problem of direct magnetic feedback is to
spatially separate the pickup and driver by a great distance. The pickup
and driver may be placed at opposite ends of the strings. However, this
solution precludes the use of frets.
U.S. Pat. No. 4,075,921 presents a method for overcoming the problem of
direct ma | | |
