Voicing system for electronic organ

US 4,104,946 A
Filed: 06/17/1976
Issued: 08/08/1978
Est. Priority Date: 06/17/1976
Status: Expired due to Term

First Claim

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1. In a voicing system for an electronic musical instrument including sources of square wave signals having frequencies corresponding to the notes of a musical scale, apparatus for deriving from said square wave signals by operation of playing keys first and second other pulse signals of different wave shapes, both differing from a square wave, said apparatus comprising, in combination:

a plurality of player-operated keyswitches,means including gating means connected to said sources of square wave signals for producing in response to actuation of a keyswitch a first other pulse signal of frequency corresponding to the actuated keyswitch,means including a plurality of bus-bars each for gathering the first other pulse signals of frequencies corresponding to a selected multiplicity of notes,a plurality of circuit means equal in number to the number of bus-bars connected one each to receive the first other pulse signals gathered at a different one of said bus-bars and operative to convert said first other pulse signals to second other pulse signals, having a different waveform, each of said circuit means being operative to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the first other pulse signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°

,a first mixing amplifier having input and output terminals, andmeans for coupling all of said circuit means to the input terminal of said first mixing amplifier whereby to produce at its output terminal second other pulse signals of frequency corresponding to the played notes.

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Abstract

In a voicing system for electronic organs, square wave signals from a tone generator are converted to a waveform of another shape, the harmonic structure of which is useful for producing certain organ voices. This modified waveform is further modified, as by integration or differentiation, to produce signals of yet another wave shape whose harmonic content makes it useful for deriving still other organ voices. In one embodiment, the square wave pulses are initially converted to narrow pulses which are particularly suitable for the production of reed and certain string voices, and these sharp, narrow pulses are integrated to produce, in effect, a separate source of signals having a sawtooth waveform the harmonic structure of which is particularly suitable for production of cello, diapason and flute sounds. In another embodiment, the square wave pulses are first combined to produce a synthesized sawtooth waveform which may be applied to appropriate filters to produce cello, diapason or flute sounds, and the synthesized sawtooth waveform pulses are differentiated to produce a source of sharp, narrow pulses which may be applied to other suitable filter networks to produce other organ voices such as reed or string sounds. In the process of conversion from one pulse shape to the other, whether by integration or differentiation, all harmonics of the starting pulse, regardless of the frequency of the note, are shifted in phase by substantially 90°, thereby enabling the selective combination of the voice signals from the voicing filters in a way such as to minimize deleterious cancellation of certain harmonics when two or more stops of the organ are played simultaneously.

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23 Claims

1. In a voicing system for an electronic musical instrument including sources of square wave signals having frequencies corresponding to the notes of a musical scale, apparatus for deriving from said square wave signals by operation of playing keys first and second other pulse signals of different wave shapes, both differing from a square wave, said apparatus comprising, in combination:
- a plurality of player-operated keyswitches,means including gating means connected to said sources of square wave signals for producing in response to actuation of a keyswitch a first other pulse signal of frequency corresponding to the actuated keyswitch,means including a plurality of bus-bars each for gathering the first other pulse signals of frequencies corresponding to a selected multiplicity of notes,a plurality of circuit means equal in number to the number of bus-bars connected one each to receive the first other pulse signals gathered at a different one of said bus-bars and operative to convert said first other pulse signals to second other pulse signals, having a different waveform, each of said circuit means being operative to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the first other pulse signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
  
  ,a first mixing amplifier having input and output terminals, andmeans for coupling all of said circuit means to the input terminal of said first mixing amplifier whereby to produce at its output terminal second other pulse signals of frequency corresponding to the played notes.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. Apparatus according to claim 1, wherein said first other pulse signals have a sharp pulse waveform containing both odd and even order harmonics, andwherein each of said plurality of circuit means comprises an integrating circuit for converting the sharp pulse waveform signals to second other pulse signals having a sawtooth waveform.
  - 3. Apparatus according to claim 2, wherein each of said integrating circuits comprises an operational amplifier having an inverting input terminal to which said sharp pulse waveform signals are applied, and an output terminal from which a feedback network including capacitive reactance is connected to said inverting input terminal.
  - 4. Apparatus according to claim 3, wherein said first mixing amplifier is an operational amplifier having an inverting input terminal providing a low impedance and an output terminal, andwherein the output terminal of each of said integrator operational amplifiers is connected by a respective resistive network to the inverting input terminal of said first mixing amplifier, said resistive networks having resistance values such that the sawtooth waveform signals produced at the output terminal of said first mixing amplifier are of substantially uniform amplitude throughout the frequency range of the musical instrument.
  - 5. Apparatus according to claim 1, wherein said first other pulse signals have a synthesized sawtooth waveform containing both odd and even order harmonics, andwherein each of said plurality of circuit means comprises a differentiating circuit for converting the synthesized sawtooth waveform signals to second other pulse signals having a sharp pulse waveform.
  - 6. Apparatus according to claim 5, wherein each of said differentiating networks includes a capacitor having an impedance value so as to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the synthesized sawtooth waveform signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
    - , and such that the sharp pulse signals produced at the output terminal of said first mixing amplifier are scaled to have predetermined relative amplitudes.
  - 7. Apparatus according to claim 4, further including a second mixing amplifier, said second mixing amplifier being an operational amplifier having an inverting input terminal presenting a low impedance and an output terminal, andwherein the output terminal of each of said integrator operational amplifiers is connected by a different differentiating network to the inverting input terminal of said second mixing amplifier, each of said differentiating networks being operative to convert the sawtooth waveform signals applied thereto to sharp pulses of substantially the waveform of the sharp pulses applied to said integrator operational amplifiers.
  - 8. Apparatus according to claim 7, wherein each of said differentiating networks include a capacitor having an impedance value so as to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the sawtooth waveform signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
    - , and such that the sharp pulse signals produced at the output terminal of said second mixing amplifier are scaled to have predetermined relative amplitudes.

9. In a voicing system for an electronic musical instrument including sources of square wave signals having frequencies corresponding to the notes of a musical scale, apparatus for deriving from said square wave signals by operation of playing keys first and second other pulse signals of different wave shapes, both differing from a square wave, and each useful for the production of selected different voice signals, said apparatus comprising, in combination:
- a plurality of player-operated keyswitches,means including gating means connected to a source of square wave signals for producing in response to actuation of a keyswitch a first other pulse signal of frequency corresponding to the actuated keyswitch,means including a plurality of bus-bars each for gathering the first other pulse signals of frequencies corresponding to a selected multiplicity of notes,a plurality of integrating circuit means equal in number to the number of bus-bars connected one each to receive the first other pulse signals gathered at a different one of said bus-bars and operative to convert said first other pulse signals to second other pulse signals having a different waveform suitable for producing a first class of voice signals, each of said integrating circuit means being operative to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the first other pulse signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
  
  in one direction,a first mixing amplifier having input and output terminals,means for coupling all of said integrating circuit means to the input terminal of said first mixing amplifier whereby to produce at its output terminal second other pulse signals of frequency corresponding to the played notes,a second mixing amplifier having input and output terminals, anda like plurality of differentiating circuit means, one connected between each of said integrating circuit means and the input terminal of said second mixing amplifier, each of said differentiating circuit means including a capacitor having an impedance value so as to produce substantially a 6 dB per octave filtering effect throughout the range of frequencies of the second other pulse signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
  
  in the opposite direction, whereby to produce at the output terminal of said second mixing amplifier pulse signals having a waveform differing from the waveform of said second other pulse signals for producing a second different class of voice signals.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. Apparatus according to claim 9, further includinga first filter network connected to receive and operative to modify said first other pulse signals from said first mixing amplifier to produce a first given organ voice signal, the said filter network being operative to shift the phase of at least some harmonics of an applied first other pulse signal by about 90°
    - ,a second filter network connected to receive and operative to modify said second other pulse signals from said second mixing amplifier to produce a different given organ voice signal, said second filter network producing no phase shift to an applied second other signal,a third mixing amplifier comprising an operational amplifier having inverting and noninverting input terminals and an output terminal,means for coupling the output signal from said first filter network to the inverting input terminal of said third mixing amplifier, andmeans connecting the output signal from said second filter network to the noninverting input terminal of said third mixing amplifier,whereby to minimize cancellation of corresponding harmonics of the output signals derived from said first and second filter networks when sounded simultaneously.
  - 11. Apparatus according to claim 9, further includinga first plurality of filter networks each connected to receive said second other pulse signals from said first mixing amplifier and each operative to produce therefrom a different organ voice signal, one of the filter networks of said second plurality causing no phase shift to an applied second other pulse signal and a second of the filter networks of said second plurality being operative to shift the phase of an applied second other pulse signal by about 90°
    - ,a second plurality of filter networks each connected to receive said other pulse signals from said second mixing amplifier and each operative to produce therefrom a different organ voice signal, one of the filter networks of said plurality causing no phase shift to an applied other pulse signal and a second of the filter networks of said second plurality being operative to shift the phase of at least some harmonics of an applied second other pulse signal by about 90°
      
      ,a third mixing amplifier comprising an operational amplifier having inverting and noninverting input terminals and an output terminal,means for coupling the output signals from the said one and said second filter networks of said first plurality and from the said second filter network of said second plurality to the inverting input terminal of said third mixing amplifier, andmeans for coupling the output signal from the said first filter network of said second plurality to the noninverting input terminal of said third mixing amplifier,whereby to minimize cancellation of corresponding harmonics of the output signals derived from the filter networks of said first and second pluralities, or any combination thereof, when sounded simultaneously.
  - 12. Apparatus according to claim 11, wherein said first plurality of filter networks further includes a third filter network operative to shift the phase of at least some harmonics of an applied first other signal by about 180°
    - , and further including means for coupling the output signal from the said third filter network of said first plurality to the inverting input terminal of said third mixing amplifier.
  - 13. Apparatus according to claim 9, wherein said fist and second mixing amplifiers are both operational amplifiers having an inverting input terminal presenting a low impedance and an output terminal,wherein all of said integrating circuit means are connected to the inverting input terminal of the first operational amplifier, andwherein all of said differentiating circuit means are connected to the inerting input terminal of the second operational amplifier.
  - 14. Apparatus according to claim 13, wherein each of said integrating circuit means comprises an operational amplifier having an inverting input terminal to which said first other pulse signals are applied, and an output terminal from which a feedback network including a capacitive reactance is connected to said inverting input terminal.

15. In a voicing system for an electronic musical instrument, the combination comprising:
- means for producing first and second pulse signals of the same frequency but different wave shapes, each of which contains both even and odd harmonics and wherein partials of interest contained in said first pulse signals are displaced by substantially 90°
  
  with respect to corresponding partials contained in said second pulse signals,a first filter network connected to receive said first pulse signal and operative to modify the same to produce at its output a first voice signal, said first filter network being operative to shift the phase of at least some partials of an applied first pulse signal by about 90°
  
  ,a second filter network connected to receive said second pulse signal and operative to modify the same to produce at its output a second different voice signal, said second filter network producing no phase shift to an applied second pulse signal,a mixing amplifier having inverting and noninverting input terminals and an output terminal,means for coupling the output signal from said first filter network to the inverting input terminal of said mixing amplifier, andmeans for coupling the output signal from said second filter network to the noninverting input terminal of said mixing amplifier,whereby to minimize cancellation of corresponding partials of the output signals derived from said first and second filter networks when sounded simultaneously.
- View Dependent Claims (16, 17)
- - 16. Apparatus according to claim 15, further includinga third filter network connected to receive said first pulse signal and operative to modify the same to produce at its output a third different voice signal, said third filter network being operative to shift the phase of at least some partials of an applied first pulse signal by about 180°
    - , andmeans for coupling the output signal from said third filter network to the inverting input terminal of said mixing amplifier,whereby to minimize cancellation of corresponding partials of the output signals derived from said first, second and third filter networks, or any combination thereof, when sounded simultaneously.
  - 17. Apparatus according to claim 16, further including,a fourth filter network connected to receive said second pulse signal and operative to modify the same to produce at its output a fourth different voice signal, said fourth filter network being operative to shift the phase of at least some partials of an applied second pulse signal by about 90°
    - , andmeans for coupling the output signal from said fourth filter network to the inverting input terminal of said mixing amplifier,whereby to minimize cancellation of corresponding partials of the output signals derived from said first, second, third and fourth filter networks, or any combination thereof, when sounded simultaneously.

18. In a voicing system for an electronic musical instrument including sources of square wave signals having frequencies corresponding to the notes of a musical scale, apparatus for deriving from said square wave signals by operation of playing keys first and second other pulse signals of different wave shapes, both differing from a square wave, said apparatus comprising, in combination,a plurality of player-operated keys,means including a like plurality of gating means connected to said soruces of square wave signals for producing in response to actuation of a keyswitch a first other pulse signal of frequency corresponding to the activated keyswitch, said gating means each comprising,switching means operative to be closed and opened in response to the upper and lower levels, respectively, of a square wave signal from one of said sources,a source of direct current potential,a keyswitch and an RC time constant circuit, including a first resistor and a first capacitor, connected between said source of direct current potential and a circuit junction point,a second capacitor connected between said circuit junction point and a point of reference potential arranged to be charged from said source of direct current potential when said switching means is open, anda diode connected between said circuit junction point and said switching means arranged to discharge said second capacitor when said switching means is closed,whereby to produce at said circuit junction point a first other pulse signal differing from a square wave and containing both odd and even harmonics and of a frequency corresponding to the actuated keyswitch,means including a plurality of bus-bars for gathering the first other pulse signals produced at said circuit junction point of frequencies corresponding to a multiplicity of notes,a plurality of integrating circuit means, equal in number to the number of bus-bars, connected one each to receive the first other pulse signals gathered at a different one of bus-bars and operative to convert said first other pulse signals to second other pulse signals having a substantially sawtooth waveform, each of said integrating circuit means being operative to produce substantially a 6dB per octave filtering effect throughout the range of frequencies of the first other pulse signals applied thereto and to shift the phase of all harmonics of interest contained therein by substantially 90°
- ,a first mixing amplifier having input and output terminals,means for connecting all of the integrating circuit means to the input of said first mixing amplifier whereby to produce at its output terminal second other pulse signals of frequency corresponding to played notes,means including at least one additional bus-bar for gathering the first other pulse signals produced at said circuit junction point of all of said plurality of gating means of frequency corresponding to played notes,a second mixing amplifier having input and output terminals, andmeans for connecting said at least one additional bus-bar to the input terminal of said second mixing amplifier whereby to produce at its output terminal first other pulse signals of frequencies corresponding to played notes.
- View Dependent Claims (19, 20, 21)
- - 19. Apparatus according to claim 18, wherein each of said integrating circuit means comprises an operational amplifier having an inverting input terminal to which said first other pulse signals are applied, and an output terminal from which a feedback network including capacitive reactance is connected to said inverting input terminal.
  - 20. Apparatus according to claim 19, wherein each of said first and second mixing amplifiers is an operational amplifier having an inverting input terminal providing a low impedance, a noninverting input terminal and an output terminal,wherein the output terminal of each of said integrator operational amplifiers is connected by a respective resistance network to the inverting input terminal of said first mixing amplifier, said resistive network having resistance values such that the sawtooth waveform signals produced at the output terminal of said first mixing amplifier are of substantially uniform amplitude throughout the frequency range of the musical instrument, andwherein said at least one additional bus-bar is capacitively coupled to the noninverting input terminal of said second mixing amplifier.
  - 21. Apparatus according to claim 20, wherein said circuit junction point of each of said plurality of gating means is connected to said at least one additional bus-bar by a respective resistance network, said resistance network having resistance values such that the first other pulse signals produced at the output terminal of said second mixing amplifier are of substantially uniform amplitude throughout the frequency range of the musical instrument.

22. In an electronic musical instrument including sources of square wave signals having frequencies corresponding to the notes of a musical scale, a gating circuit for deriving from said square wave signals by operation of playing keys pulse signals of a wave shape differing from a square wave which contain both even and odd harmonics, said gating circuit comprising in combination:
- electronic switch means connected to receive said square wave signal and operative to be closed and opened in response to the upper and lower levels, respectively, of said square wave signal,a source of direct current potential,a keyswitch and an RC time constant circuit, including a first resistor and a first capacitor, connected in series in that order beween said source of direct current potential and a circuit junction point,a second capacitor connected between said circuit junction point and a point of reference potential arranged to be charged at a predetermined rate from said source of direct current potential when said electronic switch means is open, andmeans including a diode connected between said circuit junction point and said electronic switch means arranged to discharge said second capacitor when said electronic switch means is closed,whereby to produce at a said circuit junction point a pulse signal differing from a sqare wave and containing both even and odd harmonics and of a frequency corresponding to the frequency of said square wave signal.

23. In a voicing system for an electronic musical instrument, the combination comprising:
- a source of complex wave signal,a plurality of different filter networks each connected to receive and operative to modify the relative amplitudes of the various partial frequencies of said complex wave signal to produce a respective output signal representative of a distinctive organ voice, at least some of said filter networks, incidental to their filtering action, causing differing phase shifts of the fundamental and harmonic frequencies of the applied complex wave signal,a mixing amplifier having inverting and noninverting input terminals and an output terminal,means connected to the output terminal of said mixing amplifier for transducing signals produced thereat into sound,means for coupling the output signal from selected one or more of said filter networks to the noninverting input terminal of said mixing amplifier, andmeans for coupling the output signal from such other one or more of said filter networks to the inverting input terminal of said mixing amplifier as will maximize addition at the output terminals of said mixing amplifier of the stronger partials of the individual organ voice signals when two or more are sounded simultaneously.

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Current Assignee
Richard H. Peterson
Original Assignee
Richard H. Peterson
Inventors
Peterson, Richard H.
Primary Examiner(s)
Schaefer, Robert K.
Assistant Examiner(s)
Miska, Vit W.

Application Number

US05/696,981
Time in Patent Office

782 Days
Field of Search

84/1.01, 84/1.11, 84/1.19-1.24, 84/1.26
US Class Current

84/697
CPC Class Codes

G10H 1/08 by combining tones G10H1/14...

Voicing system for electronic organ

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Voicing system for electronic organ

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Abstract

76 Citations

23 Claims

Specification

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