Fluidic oscillator having decoupled frequency and amplitude control

What is claimed as new and desired to be secured by Letters Patent of the United States is: 1. A fluidic oscillator having independent frequency and amplitude control comprising: a fluidic-oscillator main flow channel having a main flow inlet configured to receive an amplitude controlling fluid flow and a main flow outlet, said main flow channel having a first control port and a second control port disposed at opposing sides thereof, said main flow channel defining a first volume between said main flow inlet and said main flow outlet; a fluidic-oscillator controller having an inlet configured to receive a frequency controlling fluid flow and an outlet, wherein a second volume is defined between said inlet and said outlet, and wherein said first volume is greater than said second volume; and a flow diverter coupled to said outlet of said controller, said first control port, and said second control port, said flow diverter defining a first fluid flow path directed from said outlet only to said first control port and defining a second fluid flow path directed from said outlet only to said second control port, wherein said amplitude controlling fluid flow controls an amplitude of a fluid flow through said main flow channel and said frequency controlling fluid flow controls a frequency of said fluid flow through said main flow channel, and wherein said amplitude controlling fluid flow is independent of said frequency controlling fluid flow. 2. A fluidic oscillator as in claim 1 , further comprising a first plenum in fluid communication with said main flow inlet and a second plenum in fluid communication with said inlet of said controller. 3. A fluidic oscillator as in claim 2 , wherein said main flow channel and said first plenum are formed using a first panel and a second panel, wherein said controller and said second plenum are formed using said second panel and a third panel, and wherein said flow diverter is formed using said second panel. 4. A fluidic oscillator as in claim 1 , wherein said first volume is at least two times greater than said second volume. 5. A fluidic oscillator as in claim 1 , wherein said main flow channel, said flow diverter, and said controller are formed using a layered construction. 6. A fluidic oscillator having independent frequency and amplitude control, comprising: a fluidic-oscillator main flow channel having only a main flow inlet configured to receive an amplitude controlling fluid flow, a main flow outlet, a first control port, and a second control port, wherein said first control port and said second control ports are disposed at opposing sides of said main flow channel, said main flow channel defining a first volume between said main flow inlet and said main flow outlet; a fluidic-oscillator controller having an inlet configured to receive a frequency controlling fluid flow and an outlet, wherein a second volume is defined between said inlet and said outlet, and wherein said first volume is greater than said second volume; and a flow diverter coupled to said outlet of said controller, said first control port, and said second control, said flow diverter defining a first fluid flow path directed from said outlet only to said first control port and defining a second fluid flow path directed from said outlet only to said second control port, wherein said amplitude controlling fluid flow controls an amplitude of a fluid flow through said main flow channel and said frequency controlling fluid flow controls a frequency of said fluid flow through said main flow channel, and wherein said amplitude controlling fluid flow is independent of said frequency controlling fluid flow. 7. A fluidic oscillator as in claim 6 , further comprising a first plenum in fluid communication with said main flow inlet and a second plenum in fluid communication with said inlet of said controller. 8. A fluidic oscillator as in claim 7 , wherein said main flow channel and said first plenum are formed using a first panel and a second panel, wherein said controller and said second plenum are formed using said second panel and a third panel, and wherein said flow diverter is formed using said second panel. 9. A fluidic oscillator as in claim 6 , wherein said first volume is at least two times greater than said second volume. 10. A fluidic oscillator as in claim 6 , wherein said main flow channel, said flow diverter, and said controller are formed using a layered construction.