NL8005629A - RECORD FOR AN ELECTRICAL MUSIC INSTRUMENT OF THE TYPE PROVIDED WITH STRINGS. - Google Patents

Description

* * Λ -1- 21539 / JF / ah

Applicant: Clarence Leo Fender, Fullerton, California, United States ... of America. - - ...

Short designation: Record <per for an electric musical instrument of the type with strings.

The invention relates to a pick-up for an electric musical instrument of the type comprising a body, a neck with a head, a bridge device connected to a body and a number of strings disposed between the head and the bridge device, as well as a pick-up for an electric musical instrument.

The present invention relates to a pickup for an electric musical instrument of the type provided with strings, and in particular to a pickup for an electric musical instrument of the type provided with strings, which have the bass frequency characteristics of a such an instrument improves.

The invention is particularly applicable to an electric bass guitar or similar musical instrument having a number of strings of strings extending over a body and a neck, between the head of the instrument and a bridge device connected to the body, the strings are forced to vibrate by striking or plucking them.

In order to derive an output signal from such an electric bass guitar or other similar musical instrument, the instrument is conventionally provided with an electromagnetic sensor, comprising a number of magnetic elements (pole shoes) with a conducting coil wound around it. Typically, such a magnetic element is mounted directly below each string of the instrument. The strings are composed of a magnetizable substance, such as steel, and thus become part of the conductive path for the magnetic flux lines of the pole shoes. When one of the strings is forced to vibrate, it accordingly causes a disturbance in the magnetic field of the associated pole shoes. This has the effect of generating a voltage in the conductive coil, which voltage can be suitably amplified and sent to a speaker system.

There are a number of problems with such an electromagnetic sensor construction. Electric guitars and other similar electric musical instruments are used in areas with strong magnetic fields from lighting installations, motors, transformers 8005629 # · * 9ι -2- 21539 / JF / ah etc. and these magnetic fields are scanned by the pick-up as an off-premises standing noise source. In the United States of America, such a source typically has a frequency of 60 Hz; the usual mains frequency. These magnetic fields induce voltages in the coil, which are also amplified and sent to the loudspeaker system, where this manifests itself as an objectionable source.

In order to overcome this problem, it is known to provide an electric musical instrument pickup which includes two identical pickups, each with a plurality of magnetic pole shoes and a coil, the pickups being disposable in a parallel, spaced, close adjacent bandage. All pole shoes of one of the pickup devices have their north poles adjacent to the strings and their south poles relatively distant from the strings, while all pole shoes of the other pickup devices have their south poles adjacent to the strings and their north poles relatively distant from the strings . The coils of the two sensor devices are wound in the opposite direction and the two coils are either connected in series or in parallel. Since the direction of flow of current in each coil is determined by the magnetic polarity, the direction of flow of current in one coil is opposite to that of the other coil for each string. However, since the directions of the windings of the two coils are opposite, the signal induced in each coil due to a string vibration is additive and the output signal is the sum of the signal an induced in each coil.

On the other hand, the signals received by the coils of the mains generate currents in the coils which are independent of the magnetic polarity and correspondingly such mains voltages generate voltages which are in phase. However, since the coils are wound in opposite directions, these cancel each other in phases and the output signal is the difference between the mains signals induced in each coil. This means that any noise from the network which would otherwise manifest itself as an objectionable hum is effectively reduced or eliminated. This is the reason that such a device is typically referred to as a "humbucking * device.

Another industry-recognized problem, which is not necessarily related to a pick-up in itself, is the fact that the human ear is not as sensitive (efficient) to bass frequencies 8005629 i- -3- 21539 / JF / ah as it is for the midrange and high frequencies. A similar comment can be made regarding loudspeakers and other music generating systems. On the other hand, modern music, in particular disco music and rock music, strongly emphasizes the use of bass frequencies. Therefore, the music industry has continuously sought to amplify the bass frequency output with strings, especially in the case of bass guitars. In the past, this has been done by paying attention to loudspeakers, soundboards, tone control circuits for electromagnetic recorders, etc. However, none of these techniques has yet provided the desired level of bass frequency enhancement.

The object of the invention is to eliminate the said drawbacks of the known sensors and provides a sensor of the first mentioned type in the preamble, characterized in that it comprises: a first opener device, arranged between the neck and the bridge device which first sensor includes: a first plurality of pole shoes operatively associated with the strings of the instrument, a first coil wound around the first plurality of pole shoes and means connected in parallel to the first coil for providing a shunt over the first 20 coil for frequencies other than usable bass frequencies; and a second pickup device arranged in a parallel spaced relationship with the first pickup device, the second pickup comprising: a second plurality of pole shoes operatively associated with the string of the instrument ai a second coil wound around the second plurality of pole pieces, the the first and second coils are connected in series with each other, as well as in a sensor of a second type mentioned in the preamble, characterized in that it comprises two coils connected in series, and a capacitor which is connected in parallel to one of the coils to provide a shunt over one coil for frequencies other than useful bass frequencies.

According to the present invention, there is provided an electric music instrument pickup type of the type having strings which substantially improves the bass frequency characteristics of the instrument to compensate for the insensitivity of the human ear to these frequencies. This is accomplished by arranging two pickup devices at optimal locations on the instrument body and significantly increasing the bass frequency output signal from one of the pickup devices, 8005629 <-4-21539 / JF / ah which is such is arranged with regard to the strings that it is most sensitive to the bass frequencies. The predominant bass frequency output signal of this particular pickup device is added to the predominant medium and high frequency output signal of the other pickup device to provide the desired range of frequencies.

It is therefore an object of the present invention to provide an amplifier for an electric musical instrument of the type having strings having substantially improved bass frequency content. It is a feature of the present invention that this object is accomplished by providing an electric music instrument pickup with two pickup devices optimally arranged with respect to the head and bridge of the instrument and means for shunting all frequencies other than usable bass frequencies from the pickup device arranged to have maximum sensitivity to bass frequencies. A derived advantage is that the bass frequency output signal of such a sensor is substantially improved. A further advantage is that the present pickup can be used with convertible speakers, soundboards, 2Q tone control circuitry, etc., without modifications thereof for bass emphasis.

Other objects, features and consequent advantages of the present invention will be apparent to those skilled in the art after reading the following detailed description of the preferred embodiments constructed accordingly, in conjunction with the accompanying drawing, in which like reference numerals indicate like parts in the various figures and in which: fig. 1 is a top view of an electric bass guitar in accordance with the present invention; FIG. 2 is a schematic representation of the pickup devices of the bass guitar pickup of FIG. 1 showing a first embodiment of the present invention; and FIG. 3 is a similar drawing to FIG. 2 and showing the second embodiment of the present invention.

Referring now to the drawing, and in particular to Figure 1 thereof, the present invention is shown as embodied in an electric bass guitar, generally indicated by reference numeral 10 and comprising a body 11, one of ferrets for 80 05 629 .

~ -¾ -5- 21539 / JF / ah see neck 12 and a head 13, which is connected to one end of the neck 12, the other end of the neck 12 being connected to the body 11. Tensioned between the head 13 of the bass guitar 10 and a bridge device 14, connected to the body 11, are a number of strings 15-18, 5 which lie in a single plane, parallel to the front of the body 11.

The strings 15-18 are made of a magnetizable substance, such as steel, and are conventionally different in diameter. In order to derive a tone output from the guitar 10, it is provided with an electromagnetic sensor, generally designated by reference numeral 20, which is the subject of the present invention. Vibrations of the strings 15-18, due to the striking or plucking of the strings, generate an electrical signal in the transducer 20, which signal can be suitably amplified and sent to a loudspeaker system.

Sensor 20 has a general configuration known from the prior art. In particular, in order to provide hum cancellation, the sensor 20 includes at least a first and a second sensor device 30 and 40, the sensor device 30 comprising a number of identical magical elements (pole shoes) 31-34, which may be are magnetized in various ways known to those skilled in the art and sensor device 40 includes a similar number of identical magnetic elements (pole shoes) 41-44.

The number of pole shoes 31-34 and the number of pole shoes 41-44 is preferably identical and preferably the same number as the number of strings 15-18. In any case, the pole shoes 31-34 and 41-44 are mounted in body 11 in a conventional manner and held in position by suitable caps, respectively. 35 en45

Also referring to Fig. 2, it is noted that in this embodiment, all pole shoes 31-34 of pickup device 30 have their north poles adjacent to the strings 15-18 and their south poles relatively distant from the strings 15-18, while all pole shoes 41-44 of the pick-up device 40 have their south poles adjacent to the strings 15-18 and their north poles relatively distant from the strings 15-18. This construction can be reversed.

A coil 36 formed of a plurality of windings of fine conductive wire is wound around pole shoes 31-34 of pickup device 30, while a coil 46 formed of a plurality of windings 8005629 6-21539 / JF / ah wt of fine conductive wire is wrapped around pole shoes 41-44, from pickup device 40. The wire in coils 36 and 46 is insulated, such as with varnish or lacquer, and the entire device, including the pole shoe, the carrier plates and the coils, is preferably dipped in a suitable varnish or suitable varnish. As known in the art, the movement of the strings 15-18 by playing the guitar 10 results in voltages induced in the coils 36 and 46. These voltages are transferred to the input circuit of the amplifier and a loudspeaker system.

In order to provide a hum suppressor, the coils 36 and 46 are wound in opposite directions. In accordance with the present invention, the coils 36 and 46 are connected in series between ground 21 and an output line 22. Since the direction of flow of current in each coil is determined by a magnetic polarity, the direction of the flow of current and each coil opposite to that of the other coil for each string. However, since the direction of the windings of the two coils is opposite, the voltages induced in the coils due to string vibrations are additive and the signal output on line 22 is the sum of the voltages induced in each coil.

On the other hand, the signals received by the coils 36 and 46 of the mains are currents in coils 36 and 46 which are independent of the magnetic polarity and correspondingly such out-of-the-way signals generate voltages which are in phase. However, since the coils 36 and 46 are wound in opposite directions, these in-phase signals cancel each other and the signal output on line 22 is the difference between the out of order signal voltages induced in each of the coils 36 and 46. This means that any noise from the network, typically in the range of 1-150 Hz, which would otherwise manifest itself if an objectionable hum is effectively reduced or eliminated. It is for this reason that the device can be characterized as a "humbucking" device.

Referring again to Figure 1, it is immediately recognized that the only practical location for mounting transducer 20 is between the end 23 of neck 12 and bridge device 14. In theory, it is desirable to transpose transducer 20 midway between the end points of each string 15-18. , this will coincide with the point of maximum translation of the string at its fundamental vibration frequency. When 8005629 t-215-239 / JF / ah sensor 20 is removed from the center section, it becomes less sensitive to the fundamental frequencies and more sensitive to the harmonics. This problem results from the position of at least one of the end points continuing to change as the musician moves the strings 5-15-18 in contact with the fret plate on the neck 12. Accordingly, certain compromises must be made when choosing the location for the sensor 20.

When the sensor 20 is placed close to the bridge device 14, it will always be placed at a significant distance from the centers 10 of the strings and will be insensitive to the fundamental frequencies. On the other hand, when the pick-up 20 is placed close to the end of the neck 12 to be close to the centers of the string, when the strings are brought into contact with the neck 12, the pick-up 20 will be insensitive to the fundamental 15 frequencies, when the musician couples strings 15-18 close to the end 23 of neck 12. Furthermore, for reasons discussed previously, it is desirable that maximum sensitivity to the fundamental tones exist in order to improve the bass sensitivity of the pickup 20.

With reference to Figures 1 and 2, the objects of the present invention are accomplished by arranging sensor devices 30 and 40 in a parallel spaced relationship on the body 11. As shown in Figure 1, the pickup device 30 is positioned about 1/3 of the way between the end 23 of the neck 12 and the bridge device 14. This places the pickup device 30 at a location where it will be closest to the centers of the strings 15-18 when the musician plays the instrument 10, since statically most frets are performed between the instrument's nut 19 and the twelfth ferret. Sensor device 40, on the other hand, is placed 1/3 of the way between the bridge device 14 and the end of the neck 12 (midway between bridge device 14 and sensor device 30) where it has a greater sensitivity to the harmonic. Sensor device 40 therefore primarily responds to generate frequencies in the medium and high ranges.

Furthermore, and in accordance with the present invention, a capacitor 38 is connected in parallel to a coil 36, as shown in Fig. 2. Capacitor 38 has such a value that it will effectively shunt to ground 21 all frequencies other than usable bass frequencies, the desire of the present invention 8005629-8 21539 / JF / ah * x is to improve it. In the case of a bass guitar, where the open E has a frequency of 41.2Hz, the value of capacitor 38 can be selected such that the effect starts to become significant when cutting frequencies but capacitor 38 should act as a 5 open circuit at frequency in the 40-60 Hz range and operate as a virtual short circuit at frequencies above 150 Hz. The switching point should be close to 100 Hz. In the case of a conventional guitar, where the open E has a frequency of 82.41 Hz, the value of capacitor 38 can be selected as having a significant effect under frequencies in the 150-200 Hz range.

In other words, it is the teaching of the present invention to place pickup device 30 in a location where it will have maximum sensitivity to the fundamental frequencies of strings 15-18 and use a capacitor 38 parallel to the coil 36 in order to use frequencies other than usable shunt bass frequencies. Then, the output of sensor device 30 is combined with the output of sensor 40, the latter of which is predominantly sensitive to the billion and high frequencies. The outputs of these two coils are combined by connecting them in series between output line 22Q and ground 21. When this output is fed to a conventional amplifier and loudspeaker system, sensor 20 will provide bass guitar 10 with a substantially improved low-frequency output.

According to the embodiment of the invention shown in Figs. 1 and 2, sensor device 30 consists of a single pair of pocl-25 shoes 31-34 and a single coil 36, as well as sensor device 40. However, other configurations will be obvious to those skilled in the art. Referring to FIG. 3, a bass guitar pickup 50 may include, for example, a pickup device 60, which is a dual pickup and a pickup device 80, which is also a dual-pickup pickup. In other words, the pickup device 60 may include two sets of pole shoes 61-64 and 65-68, each with its own coil 69 and 70, pole shoes 65-68 having an opposite magnetic orientation with respect to the. pole shoes 61-64 and coils 69 and 70 wound in opposite directions. By connecting the coils 35, 69 and 70 in series or in parallel as discussed above, a hum suppressor is provided. In any case, a capacitor 71 will be connected in parallel to the coils 69 and 70 for reasons described above with regard to the sensor 20.

8005629 -9- 21539 / JF / ah

Similarly, sensor device 80 may include two sets of pole shoes 81-84 and 85-88, each with its own coil, respectively. 89 and 90, the pole shoes 81-84 and 85-88 having opposite magnetic orientations and the coils 89 and 90 being wound in the opposite direction. Coils 89 and 90 are connected in series or para-5 Hel, but the combination is connected in series with 'coils 69 and 70. Γη. In case of sensor 50, r' switching means may be provided, which may be short-circuited providing either coil 69 or coil 70 and switching means may also be provided for simultaneously shorting either coil 89 or 90. The reasons for the desirability of removing one of the two coils in a dual pickup device from the circuit are known. to professionals in this field of technology. Those skilled in the art will also appreciate that transducer 50 is a more effective hum suppressor than transducer 20. · Accordingly, it can be recognized that, according to the present invention, an electrical musical instrument transducer of the type provided with strings, which substantially improve the instrument's bass frequency characteristics to compensate for the insensitivity of the human ear to these frequencies.

20 pits are accomplished by arranging two pickup devices at optimal locations on the body of the instrument and significantly increasing the bass frequency outputs of one of the pickup devices arranged with the strings most sensitive is for the bass frequencies. The predominant bass frequency output of this particular pickup device is added to the predominant high frequency output of the other pickup device to provide the desired range of frequencies.

Although the invention has been described with reference to preferred physical embodiments constructed in accordance therewith, it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the scope and spirit of the invention . Accordingly, it is to be understood that the invention is not limited by the specific illustrative embodiments, but only by the scope of the accompanying claims.

8005629

Claims (10)

21539 / JF / ah CONCLUSIONS: "10" 1. An electric musical instrument recorder of the type comprising a body, a neck with a head, a bridge device, 5 'connected to the body and a number of strings arranged between the head and the bridge device, characterized in that it comprises: a first pickup device disposed between the neck and the bridge device, the first pickup comprising: a first plurality of pole shoes operatively associated with the strings of the instrument, a first coil wound around the first plurality of pole shoes and means connected in parallel with the first coil, for shunting the first coil for frequencies other than useful bass frequencies; and a second pickup device arranged in a parallel spaced relationship with the first pickup device, the second pickup 15 comprising: a second plurality of pole shoes operatively associated with the strings of the instrument and a second coil wound around the second plurality of pole shoes, wherein the first and second coils are connected in series. An electric musical instrument pickup according to claim 1, characterized in that all pole shoes of one of the pickup devices have their north poles adjacent to the strings and their south poles relatively distant from the strings if all pole shoes of the other pickup device have their south poles adjacent to the strings and their north poles are relative to the strings and that the first and second coils are wound around their respective pole shoes in opposite direction so that the stresses induced therein by the strings' vibrations are added together and the voltages induced therein by sound sources are subtracted from each other. An electric musical instrument pickup according to claim 1 or 2, characterized in that the means providing a shunt comprise a capacitor, the opposite ends of which are connected to the opposite ends of the first coil. 4. An electric musical instrument pickup according to claim 1 or 2, characterized in that the first pickup device is disposed about 1/3 of the distance between the end of the neck connected to the body and the bridge device. 8005529 -11- 21539 / JF / ah An electric musical instrument pickup according to claim 4, characterized in that the second pickup arrangement is disposed approximately midway between the first pickup arrangement and the bridge arrangement. An electric musical instrument pickup according to claim 1 or 2, characterized in that the means providing a shunt j - provide a shunt for the frequencies above about 150 Hz. An electric musical instrument pickup, characterized in that it comprises two coils connected in series, and a capacitor connected in parallel to one of the coils to provide a shunt over one coil for frequencies other than 10 usable bass frequencies. A sensor according to claim 7, characterized in that the coils are connected in series between ground and an output line with a common point between them and the capacitor is connected between the common connection point and ground. Sensor according to claim 7, characterized in that the coils are connected in series between earth and an output line with a common connection point between them and in that the capacitor is connected. between the common connection point and the exit line. 10. A sensor according to claim 7, 8, or 9, characterized in that the capacitor provides a shunt for frequencies above about 150 Hz. Eindhoven, September 1980.8005329