The strobe tuner of claim 8, wherein the duty cycle of said first electrical signal and said second electrical signal is less than or approximately equal to ⅛ of the required frequency of the string.ġ5. The strobe tuner of claim 8, wherein said first stroboscopic light source is semiconductor laser and said second stroboscopic light is a light emitting diode.ġ4. The strobe tuner of claim 8, wherein said first stroboscopic light source and said second stroboscopic light are light emitting diodes.ġ3. The strobe tuner of claim 8, wherein said first stroboscopic light source and said second stroboscopic light are semiconductor lasers.ġ2. The strobe tuner of claim 8, wherein said first stroboscopic light source is a light emitting diode.ġ1. The strobe tuner of claim 8, wherein said first stroboscopic light source is a semiconductor laser.ġ0. A strobe tuner comprising: a switch that activates the strobe tuner and cycles through a number of frequencies a first stroboscopic light source that emits light at a frequency approximately equal to a required frequency of a string a second stroboscopic light source that emits light at the frequency approximately equal to the required frequency of said string and a processor that generates a first electrical signal and a second electrical signal to drive said first stroboscopic light source and said second stroboscopic light source out of phase respectively, wherein said first stroboscopic light source and said second stroboscopic light source are different colors.ĩ. The method of claim 1, further comprising the step of selecting a desired frequency from a number of frequencies by manipulating a switch.Ĩ. The method of claim 1, wherein an electromagnetic speaker is driven at the required frequency of the string, simultaneously providing a tone source capable of being received by commonly-used guitar pick-ups and amplified using commonly-used equipmentħ. The method of claim 1, wherein a piezo electric buzzer is driven at the required frequency of the string.Ħ.
The method of claim 1, wherein the duty cycle of the electrical signals is less than or approximately equal to ⅛ of the required frequency of the string.ĥ. The method of claim 1, wherein at least one of said plurality of stroboscopic light sources is a light emitting diode.Ĥ. The method of claim 1, wherein at least one of said plurality of stroboscopic light sources is a semiconductor laser.ģ. A method for tuning a stringed musical instrument comprising the steps of: providing a plurality of stroboscopic light sources, each light source having a different color generating a plurality of out-of-phase electrical impulses at a frequency equal to the required frequency of the string driving said plurality of stroboscopic light sources using the generated electrical signals to illuminate one string of a musical instrument and observing the relative movement of lights reflecting off of said string while adjusting a tension of said string until the reflected lights are stationary in relation to each other.Ģ. SYSTEM AND METHOD OF USING METADATA TO INCORPORATE MUSIC INTO NON-MUSIC APPLICATIONSĮLECTRIC GUITAR OR BASS AND DEVICE IN CONNECTION WITH ELECTRIC GUITAR OR BASSĬan or Bottle Opener for Adjusting Drum Hardware and Related Methods of Useġ.
SYSTEM AND METHOD FOR GENERATING CUSTOM SONGS
#Musical strobe tuner portable#
METHOD AND SYSTEM FOR GENERATING SOUNDS USING PORTABLE AND INEXPENSIVE HARDWARE AND A PERSONAL COMPUTING DEVICE SUCH AS A SMART PHONEĪdjustable Zero Fret and Method of Use on a Stringed Instrument