Patent Grant
8697977
This invention relates to a sound generating system that includes a light-emitting device. The light-emitting device is configured to display illumination or images based on the sounds generated by the sound generating system.
Musicians who have played many gigs in small clubs and other venues, understand the importance of showing a little “flair” during their shows. They also understand that with limited pay for these outings and also little set-up space it can be very difficult to set-up and operate a light show for the musical act. Also the time involved in setting it up and tearing it down also can be a hurdle.
A need exists for a series of products that would make a live band's performance visual stimulating, inexpensive, and simple/automatic to operate.
The present invention is a light-emitting display that is capable of creating unique and/or pleasing visual effects. The present invention incorporates a light-emitting diode (LED) display into a sound-generating portion of sound-generating system. The two are interactive with each other.
The idea behind this product line is to create a circuit that “listens” to the music that is being played, and then changes the output state of several lights or LEDs based on the pulses that are being generated by the music. The lights or LEDs would be embedded directly into the musical instrument or speaker cabinet.
This invention is a series of products that would make a live band's performance visually stimulating, inexpensive, and simple/automatic to operate.
This invention creates a circuit that “listens” to the music that is being played, and then changes the output state of several lights or LEDs based on the pulses that are being generated by the music. The lights or LEDs would be embedded directly into the musical instrument or speaker cabinet.
With a drum-kit, one embodiment lines the rim of the bass drum hoop with lights or LEDs that are being controlled by the HoopLite™ circuit. As the drums are being played the state of the LEDs or lamps changes automatically with the rhythm that the drummer is playing.
Most electric guitars are equipped with pick-guards. Another embodiment integrates the LEDs directly into one of the layers of the pick-guard. Also, in this instance of the invention, either a microphone could pick up the audio changes or the guitar's pickup could be integrated directly into the circuit eliminating the need for a microphone input.
Another embodiment incorporates the circuit into the speaker enclosures. Very often, circular speaker grill covers are used to protect the speakers in guitar amplifiers, bass amplifiers, and other speaker enclosures. Those speaker grill covers could have LEDs or lamps integrated directly into their outer rim. Once again the HoopLite™ circuit could be employed to create a light show automatically making these enclosures a visual part of the show.
Often when acoustic guitars are used in live settings, a sound hole plug is used to keep the acoustic guitar from feeding back when using high volumes. The sound hole plug could be altered to incorporate some lights or LEDs and be controlled by the HoopLite™ circuit. With an acoustic guitar, a microphone could be used to pick-up audio signals, or the guitar's transducer could be the analog input into the HoopLite™ circuit.
Power Supply: The power for this circuit might be a battery, a DC source (wall-outlet power supply), or AC power that is rectified to suit the circuit.
Analog Sensor: Many different sensors could act as the input for this circuit. A microphone, guitar pick-up, or piezoelectric pick-up could all be used very simply with this product.
Interface Electronics: The interface electronics exist to couple the analog sensor to the rest of the circuitry. A guitar pickup may be connected almost directly. So, the interface electronics may change slightly based on the device that is capturing the analog (sound) input.
Gain Stage: The gain stage on this circuit amplifies the incoming audio signal. The gain stage is adjustable so that the sensitivity of the circuit can be set which controls how active the changes at the output of the device are. The gain stage is also there to start “clipping” the incoming analog signal. The clipping is the first step in the analog signal becoming a DC pulse train.
Peak Detector: The peak detector does the rest of the work in converting the “peaks” it sees coming from the gain stage into digital pulses that will become the input into the digital logic stage.
Digital Logic: Digital logic is a fairly generic term that covers many devices. In a very simple version of the circuit, the digital logic might be a decade counter where each pulse received from the peak detector changes the output state of the decade counter turning on a different light/LED.
The digital logic block might also be replaced with a microprocessor or micro-controller. In this variation of the circuit, the microprocessor might be programmed with one or many different algorithms that would control the output lights/LEDs in different fashions depending upon the algorithm that was currently employed and the input of pulses.
Output Lamps: Once again, the lights in this design could be incandescent lamps or LEDs. These lamps or LEDs might be directly on the circuit board or they may be remote so that the multiple circuit boards with lights on them might be spread around a physical structure (i.e. bass drum hoop etc.) enlarging the effect. For a very large effect AC bulbs may need to be used. In this case the Triacs could be employed as the lamp drivers allowing theater style lighting to be used.
This invention uses a Master/Slave concept. Where the Master board of
The Slave boards of
The invention uses the following patterns and protocols.
The concept of this product could be employed in several different ways. This effect could add to visual performances by automatically creating a light show that is integrated directly into an instrument, speaker cabinet, or amplifier. The patterns and colors generated by this effect are only limited by the imagination of the designer.
The instruments in
They also have 8 “OFF” state patterns that the user can select to have displayed when the circuit is at rest (not “hearing” any sounds).
In addition to these embodiments, persons skilled in the art can see that numerous modifications and changes may be made to the above invention without departing from the intended spirit and scope thereof.
The above detailed description of the present invention is given for explanatory purposes. It will be apparent to those skilled in the art that numerous changes and modifications can be made without departing from the scope of the invention. Accordingly, the whole of the foregoing description is to be construed in an illustrative and not a limitative sense, the scope of the invention being defined solely by the appended claims.
This application claims the benefit of provisional application No. 61/404,930 filed Oct. 12, 2010.
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| Number | Date | Country | |
|---|---|---|---|
| 61404930 | Oct 2010 | US |
