Method and system for frequency up-conversion with modulation embodiments
DC CAFCFirst Claim
1. A system for up-converting and modulating an information signal, comprising:
- a gating module and a differentiation module, wherein (1) said gating module comprises a control input, a first input, and a second input;
wherein (a) said control input accepts a control signal, wherein said control signal controls the frequency at which said gating module closes and opens;
(b) said first input accepts an input signal, wherein said input signal is a function of the information signal;
(c) said second input is coupled to a reference potential; and
(d) said first input is further coupled to said differentiation module; and
(2) said differentiation module comprises an output.
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Abstract
A method and system is described wherein an information signals is gated at a frequency that is a sub-harmonic of the frequency of the desired output signal. In the modulation embodiments, the information signal is modulated as part of the up-conversion process. In a first modulation embodiment, one information signal is phase modulated onto the carrier signal as part of the up-conversion process. In a second modulation embodiment, two information signals are multiplied, and, as part of the up-conversion process, one signal is phase modulated onto the carrier and the other signal is amplitude modulated onto the carrier. In a third modulation embodiment, one information signal is phase modulated onto the “I” phase of the carrier signal as part of the up-conversion process and a second information signal is phase modulated onto the “Q” phase of the carrier as part of the up-conversion process. In a fourth modulation embodiment, four information signals are phase and amplitude modulated onto the “I” and “Q” phases of the carrier as part of the up-conversion process. There are at least two implementations of each of the aforementioned embodiments.
623 Citations
131 Claims
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1. A system for up-converting and modulating an information signal, comprising:
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a gating module and a differentiation module, wherein (1) said gating module comprises a control input, a first input, and a second input;
wherein(a) said control input accepts a control signal, wherein said control signal controls the frequency at which said gating module closes and opens;
(b) said first input accepts an input signal, wherein said input signal is a function of the information signal;
(c) said second input is coupled to a reference potential; and
(d) said first input is further coupled to said differentiation module; and
(2) said differentiation module comprises an output. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for up-converting and modulating an information signal, comprising:
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a first gating module, a summer, a phase shifter, an inverter, and a second gating module;
wherein(1) said first gating module comprises a first control input, a first input, and a second input;
(a) said first control input accepts a first control signal, wherein said first control signal is a function of a first oscillating signal, and said first control signal controls the frequency at which said first gating module closes and opens;
(b) said first input accepts a first input signal, wherein said first input signal is a function of the information signal;
(c) said second input is coupled to a first reference potential; and
(d) said first input is further coupled to said summer;
(2) said phase shifter outputs a phase shifted oscillating signal;
(3) said inverter accepts the information signal and outputs an inverted information signal;
(4) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(a) said second control input accepts a second control signal, wherein said second control signal is a function of said phase shifted oscillating signal, and said second control signal controls the frequency at which said second gating module closes and opens;
(b) said third input accepts a second input signal, wherein said second input signal is a function of said inverted information signal;
(c) said fourth input is coupled to a second reference potential; and
(d) said third input is further coupled to said summer; and
(5) said summer has an output. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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16. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a multiplier, a gating module, and a differentiation module, wherein (1) said multiplier combines the first information signal with the second information signal to create a combined signal;
(2) said gating module comprises a control input, a first input, and a second input;
wherein(a) said control input accepts a control signal, wherein said control signal controls the frequency at which said gating module closes and opens;
(b) said first input accepts an input signal, wherein said input signal is a function of said combined signal;
(c) said second input is coupled to a reference potential; and
(d) said first input is further coupled to said differentiation module; and
(3) said differentiation module has an output. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23)
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24. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a multiplier, a first gating module, an inverter, a phase shifter, a second gating module, and a summer;
wherein(1) said multiplier combines the first information signal and the second information signal to create a combined signal;
(2) said first gating module comprises a first control input, a first input, and a second input;
(a) said first control input accepts a first control signal, wherein said first control signal is a function of a first oscillating signal, and said first control signal controls the frequency at which said first gating module closes and opens;
(b) said first input accepts a first input signal, wherein said first input signal is a function of said combined signal;
(c) said second input is coupled to a first reference potential; and
(d) said first input is further coupled to said summer;
(3) said inverter accepts said combined signal and outputs an inverted combined signal;
(4) said phase shifter outputs a phase shifted oscillating signal;
(5) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(a) said second control input accepts a second control signal, wherein said second control signal is a function or said phase shifted oscillating signal, and said second control signal controls the frequency at which said second gating module closes and opens;
(b) said third input accepts a second input signal, wherein said second input signal is a function of said inverted combined signal;
(c) said fourth input is coupled to a second reference potential; and
(d) said third input is further coupled to said summer; and
(6) said summer has an output. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33)
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34. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a first gating module, a first differentiation module, a quadrature phase shifter, a second gating module, and a second differentiation module;
wherein(A) said first gating module comprises a first control input, a first input, and a second input;
wherein(1) said first control input accepts a first control signal, wherein said first control signal controls the frequency at which said first gating module closes and opens;
(2) said first input accepts a first input signal, wherein said first input signal is a function of the first information signal;
(3) said second input is coupled to a first reference potential; and
(4) said first input is further coupled to said first differentiation module;
(B) said first differentiation module comprises a first output;
(C) said quadrature phase shifter outputs a phase shifted oscillating signal, wherein said phase shifted oscillating signal has a phase shifted frequency and a phase shifted phase, and further, said first control signal has a first frequency and a first phase, and said phase shifted frequency is substantially equal to said first frequency;
(D) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(1) said second control input accepts a second control signal, wherein said second control signal is a function of said phase shifted oscillating signal, and further, said second control signal controls the frequency at which said second gating module closes and opens;
(2) said third input accepts a second input signal, wherein said second input signal is a function of the second information signal;
(3) said fourth input is coupled to a second reference potential; and
(4) said third input is further coupled to said second differentiation module; and
(E) said second differentiation module has a second output. - View Dependent Claims (35, 36, 37, 38, 39, 40, 41, 42, 43, 44)
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45. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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(1) a first gating module, a first phase shifter, a first inverter, a second gating module, and a first summer;
wherein(A) said first gating module comprises a first control input, a first input, and a second input;
wherein(i) said first control input accepts a first control signal, wherein said first control signal is a function of a first oscillating signal, said first oscillating signal having a first frequency and a first phase, and wherein said first control signal controls the frequency at which said first gating module closes and opens;
(ii) said first input accepts a first input signal, wherein said first input signal is a function of the first information signal;
(iii) said second input is coupled to a first reference potential; and
(iv) said first input is further coupled to said first summer;
(B) said first phase shifter outputs a first phase shifted oscillating signal;
(C) said first inverter accepts the first information signal and outputs a first inverted information signal;
(D) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(i) said second control input accepts a second control signal, wherein said second control signal is a function of said first phase shifted oscillating signal, and said second control signal controls the frequency at which said second gating module closes and opens;
(ii) said third input accepts a second input signal, wherein said second input signal is a function of said first inverted information signal;
(iii) said fourth input is coupled to a second reference potential; and
(iv) said third input is further coupled to said first summer; and
(E) said first summer has a first output, wherein said first output is an in-phase harmonically rich signal;
(2) a second phase shifter, wherein said second phase shifter outputs a second phase shifted oscillating signal, wherein said second phase shifted oscillating signal has a second shifted frequency and a second shifted phase, and said second shifted frequency is substantially equal to said first frequency;
(3) a third gating module, a third phase shifter, a second inverter, a fourth gating module, and a second summer;
wherein(A) said third gating module comprises a third control input, a fifth input, and a sixth input;
wherein(i) said third control input accepts a third control signal, wherein said third control signal is a function of said second phase shifted oscillating signal, and said third control signal controls the frequency at which said third gating module closes and opens;
(ii) said fifth input accepts a third input signal, wherein said third input signal is a function of the second information signal;
(iii) said sixth input is coupled to a third reference potential; and
(iv) said fifth input is further coupled to said second summer;
(B) said third phase shifter outputs a third phase shifted oscillating signal;
(C) said second inverter accepts the second information signal and outputs a second inverted information signal;
(D) said fourth gating module comprises a fourth control input, a seventh input, and an eighth input;
wherein(i) said fourth control input accepts a fourth control signal, wherein said fourth control signal is a function of said third phase shifted oscillating signal, and said fourth control signal controls the frequency at which said fourth gating module closes and opens;
(ii) said seventh input accepts a fourth input signal, wherein said fourth input signal is a function of said second inverted information signal;
(iii) said eighth input is coupled to a fourth reference potential; and
(iv) said seventh input is further coupled to said second summer; and
(E) said second summer has a second output, wherein said second output is a quadrature-phase harmonically rich signal. - View Dependent Claims (46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58)
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59. A system for up-converting and modulating a first information signal, a second information signal, a third information signal, and a fourth information signal, comprising:
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(1) a first multiplier, wherein said first multiplier combines the first information signal and the second information signal to create a first combined signal;
(2) a first gating module, a first phase shifter, a first inverter, a second gating module, and a first summer;
wherein(A) said first gating module has a first control input, a first input, and a second input;
wherein(i) said first control input accepts a first control signal, wherein said first control signal is a function of a first oscillating signal, said first oscillating signal having a first frequency and a first phase, and wherein said first control signal controls the frequency at which said first gating module closes and opens;
(ii) said first input accepts a first input signal, wherein said first input signal is a function of said first combined signal;
(iii) said second input is coupled to a first reference potential; and
(iv) said first input is further coupled to said first summer;
(B) said first phase shifter outputs a first phase shifted oscillating signal;
(C) said first inverter accepts said first combined signal and outputs a first inverted combined signal;
(D) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(i) said second control input accepts a second control signal, wherein said second control signal is a function of said first phase shifted oscillating signal, and said second control signal controls the frequency at which said second gating module closes and opens;
(ii) said third input accepts a second input signal, wherein said second input signal is a function of said first inverted combined signal;
(iii) said fourth input is coupled to a second reference potential; and
(iv) said third input is further coupled to said first summer, and (E) said first summer has a first output, wherein said first output is an in-phase harmonically rich signal;
(3) a second phase shifter, wherein said second phase shifter outputs a second phase shifted oscillating signal, wherein said second phase shifted oscillating signal has a second shifted frequency and a second shifted phase, and said second shifted frequency is substantially equal to said first frequency;
(4) a second multiplier, wherein said second multiplier combines the third information signal and the fourth information signal to create a second combined signal;
(5) a third gating module, a third phase shifter, a second inverter, a fourth gating module, and a second summer;
wherein(A) said third gating module comprises a third control input, a fifth input, and a sixth input;
wherein(i) said third control input accepts a third control signal, wherein said third control signal is a function of said second phase shifted oscillating signal, and further, said third control signal controls the frequency at which said third gating module closes and opens;
(ii) said fifth input accepts a third input signal, wherein said third input signal is a function of said second combined signal;
(iii) said sixth input is coupled to a third reference potential; and
(iv) said fifth input is further coupled to said second summer;
(B) said third phase shifter outputs a third phase shifted oscillating signal;
(C) said second inverter accepts said second combined signal and outputs a second inverted combined signal;
(D) said fourth gating module has a fourth control input, a seventh input, and an eighth input;
wherein(i) said fourth control input accepts a fourth control signal, wherein said fourth control signal is a function of said third phase shifted oscillating signal, and further, said fourth control signal controls the frequency at which said fourth gating module closes and opens;
(ii) said seventh input accepts a fourth input signal, wherein said fourth input signal is a function of said second inverted combined signal;
(iii) said eighth input is coupled to a fourth reference potential; and
(iv) said seventh input is further coupled to said second summer; and
(E) said second summer has a second output, wherein said second output is a quadrature-phase harmonically rich signal. - View Dependent Claims (60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72)
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73. A system for up-converting and modulating a first information signal, a second information signal, a third information signal, and a fourth information signal, comprising:
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(1) a first multiplier, wherein said first multiplier combines the first information signal with the second information signal to create a first combined signal;
(2) a first gating module and a first differentiation module, wherein;
(A) said first gating module comprises a first control input, a first input, and a second input;
wherein(i) said first control input accepts a first control signal, wherein said first control signal controls the frequency at which said first gating module closes and opens;
(ii) said first input accepts a first input signal, wherein said first input signal is a function of said first combined signal;
(iii) said second input is coupled to a first reference potential; and
(iv) said first input is further coupled to said first differentiation module;
(B) said first differentiating module has a first output, said first output being an in-phase harmonically rich signal;
(3) a second multiplier, wherein said second multiplier combines the third information signal with the fourth information signal to create a second combined signal;
(4) a phase shifter, wherein said phase shifter outputs a phase shifted oscillating signal, wherein said phase shifted oscillating signal has a phase shifted frequency and a phase shifted phase, and further, said first control signal has a first frequency and a first phase, and said phase shifted frequency is substantially equal to said first frequency; and
(5) a second gating module and a second differentiation module, wherein;
(A) said second gating module comprises a second control input, a third input, and a fourth input;
wherein(i) said second control input accepts a second control signal, wherein said second control signal is a function of said phase shifted oscillating signal, and further, said second control signal controls the frequency at which said second gating module closes and opens;
(ii) said third input accepts a second input signal, wherein said second input signal is a function of said second combined signal;
(iii) said fourth input is coupled to a second reference potential; and
(iv) said third input is further coupled to said second differentiation module; and
(B) said second differentiating module comprises a second output, said second output being a quadrature-phase harmonically rich signal. - View Dependent Claims (74, 75, 76, 77, 78, 79, 80, 81, 82, 83)
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84. A system for up-converting and modulating an information signal, comprising:
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a control signal having a control frequency;
a gating means for gating having a control input, said control signal being coupled to said control input, said control signal causing said gating means to gate the information signal at a rate that is a function of said control frequency, thereby resulting in a gated information signal;
a differentiation module accepting said gated information signal and creating a phase-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic; and
a filter accepting said phase-modulated harmonically rich signal and outputting said desired harmonic. - View Dependent Claims (85, 86, 87)
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88. A system for up-converting and modulating an information signal, comprising:
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an inversion means for inverting the information signal and outputting an inverted information signal;
a first control signal having a first control frequency and a first control phase;
a first reference potential and a second reference potential;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency and said second control phase is substantially 180°
out of phase with said first control phase;
a first gating means for gating having a first control input, a first signal input, and a first reference input, wherein said first control signal is coupled to said first control input, said reference signal is coupled to said first reference input, and said information signal is coupled to said first signal input, causing said first gating means to gate the information signal to said first reference potential at a rate that is a function of said first control frequency, thereby resulting in a gated information signal;
a second gating means for gating having a second control input, a second signal input, and a second reference input, wherein said second control signal is coupled to said second control input, a second reference potential is coupled to said second reference input, and said inverted information signal is coupled to said second signal input, causing said second gating means to gate said inverted information signal to said second reference potential at a rate that is a function of said second control frequency, thereby resulting in a gated inverted information signal; and
a summer accepting said gated information signal and said gated inverted information signal, thereby creating a phase-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (89, 90, 91, 92)
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93. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a multiplier accepting the first information signal and the second information signal and creating a combined signal;
a gating means for gating having a control input, said control input accepting a control signal having a control frequency, said control signal causing said gating means to gate said combined signal at a rate that is a function of said control frequency, thereby resulting in a gated combined signal; and
a differentiation module accepting said gated combined signal and creating a phase-and-amplitude-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (94)
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95. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a multiplier accepting the first information signal and the second information signal and creating a combined signal;
an inversion means for inverting said combined signal and outputting an inverted combined signal;
a first control signal having a first control frequency and a first control phase;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency and said second control phase is substantially 180°
out of phase with said first control phase;
a first gating means for gating having a first control input;
said first control signal being coupled to said first control input, said first control signal causing said first gating means to gate said combined signal at a rate that is a function of said first control frequency, thereby resulting in a gated combined signal;
a second gating means for gating having a second control input;
said second control signal being coupled to said second control input of said second gating means, said second control signal causing said second gating means to gate said inverted combined signal at a rate that is a function of said second control frequency, thereby resulting in a gated inverted combined signal;
a summer accepting said gated combined signal and said gated inverted combined signal creating a phase-and-amplitude-modulated harmonically rich having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (96)
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97. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a first control signal having a first control frequency and a first control phase;
a first gating means for gating having a first control input;
said first control signal being coupled to said first control input, said first control signal causing said first gating means to gate the first information signal at a rate that is a function of said first control frequency, thereby resulting in an in-phase gated information that is a function of the first information signal;
a first differentiation module accepting said in-phase gated information signal and creating an in-phase phase-modulated harmonically rich signal;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency, and said second control phase is substantially 90°
out of phase with said first control phase;
a second gating means for gating having a second control input;
said second control signal being coupled to said second control input, said second control signal causing said second gating means to gate the second information signal at a rate that is a function of said second control frequency, thereby resulting in a quadrature-phase gated information signal that is a function of the second information signal;
a second differentiation module accepting said quadrature-phase gated information signal and creating a quadrature-phase phase-modulated harmonically rich signal; and
a summing means for summing said in-phase phase-modulated harmonically rich signal and said quadrature-phase phase-modulated harmonically rich signal thereby creating an in-phase/quadrature-phase phase-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (98)
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99. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a first inversion means for inverting the first information signal and outputting a first inverted information signal;
a first control signal having a first control frequency and a first control phase;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency and said second control phase is substantially 180°
out of phase with said first control phase;
a first gating means for gating having a first control input;
said first control signal being coupled to said first control input, said first control signal causing said first gating means to gate the first information signal at a rate that is a function of said first control frequency, thereby resulting in a first gated information signal that is a function of the first information signal;
a second gating means for gating having a second control input;
said second control signal being coupled to said second control input, said second control signal causing said second gating means to gate said first inverted information signal at a rate that is a function of said second control frequency, thereby resulting in a first gated inverted information signal that is a function of said first inverted information signal;
a first summer accepting said first gated information signal and said first gated inverted information signal thereby creating an in-phase phase-modulated harmonically rich signal;
a second inversion means for inverting the second information signal and outputting a second inverted information signal;
a third control signal having a third control frequency and a third control phase, wherein said third control frequency is substantially equal to said first control frequency and said third control phase is substantially 90°
out of phase with said first control phase;
a fourth control signal having a fourth control frequency and a fourth control phase, wherein said fourth control frequency is substantially equal to said third control frequency and said fourth control phase is substantially 180°
out of phase with said third control phase;
a third gating means for gating having a third control input;
said third control signal being coupled to said third control input, said third control signal causing said third gating means to gate the second information signal at a rate that is a function of said third control frequency, thereby resulting in a second gated information signal that is a function of the second information signal;
a fourth gating means for gating having a fourth control input;
said fourth control signal being coupled to said fourth control input, said fourth control signal causing said fourth gating means to gate said second inverted information signal at a rate that is a function of said fourth control frequency, thereby resulting in a second gated inverted information signal that is a function of said second inverted information signal;
a second summer accepting said second gated information signal and said second gated inverted information signal thereby creating a quadrature-phase phase-modulated harmonically rich signal;
a summing means for summing said in-phase phase-modulated harmonically rich signal and said quadrature-phase phase-modulated harmonically rich signal thereby creating an in-phase/quadrature-phase phase-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (100)
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101. A system for up-converting and modulating a first information signal and a second information signal, comprising:
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a first inversion means for inverting the first information signal and outputting a first inverted information signal;
a first control signal having a first control frequency and a first control phase;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency and said second control phase is substantially 180°
out of phase with said first control phase;
a first gating means for gating having a first control input;
said first control signal being coupled to said first control input, said first control signal causing said first gating means to gate the first information signal at a rate that is a function of said first control frequency, thereby resulting in a first gated information signal that is a function of the first information signal;
a second gating means for gating having a second control input;
said second control signal being coupled to said second control input, said second control signal causing said second gating means to gate said first inverted information signal at a rate that is a function of said second control frequency, thereby resulting in a first gated inverted information signal that is a function of said first inverted information signal;
a first summer accepting said first gated information signal and said first gated inverted information signal creating an in-phase phase-modulated harmonically rich signal;
a second inversion means for inverting the second information signal and outputting a second inverted information signal;
a third control signal having a third control frequency and a third control phase, wherein said third control frequency is substantially equal to said first control frequency and said third control phase is substantially 90°
out of phase with said first control phase;
a third gating means for gating having a third control input;
said third control signal being coupled to said third control input, said third control signal causing said third gating means to gate the second information signal at a rate that is a function of said third control frequency, thereby resulting in a quadrature-phase gated information signal that is a function of the second information signal;
a differentiation module accepting said quadrature-phase gated information signal and creating a quadrature-phase phase-modulated harmonically rich signal; and
a summing means for summing said in-phase phase-modulated harmonically rich signal and said quadrature-phase phase-modulated harmonically rich signal thereby creating an in-phase/quadrature-phase phase-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (102)
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103. A system for up-converting and modulating a first information signal, a second information signal, a third information signal, and a fourth information signal, comprising:
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a first multiplier accepting the first information signal and the second information signal and creating a first combined signal;
an first inversion means for inverting said first combined signal and outputting a first inverted combined signal;
a first control signal having a first control frequency and a first control phase;
a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency and said second control phase is substantially 180°
out of phase with said first control phase;
a first gating means for gating having a first control input;
said first control signal being coupled to said first control input, said first control signal causing said first gating means to gate said first combined signal at a rate that is a function of said first control frequency, thereby resulting in a first gated combined signal that is a function of said first combined signal;
a second gating means for gating having a second control input;
said second control signal being coupled to said second control input, said second control signal causing said second gating means to gate said first inverted combined signal at a rate that is a function of said second control frequency, thereby resulting in a first gated inverted combined signal that is a function of said first inverted combined signal;
a first summer accepting said first gated combined signal and said first gated inverted combined signal thereby creating an in-phase phase-and-amplitude-modulated harmonically rich signal;
a second multiplier accepting the third information signal and the fourth information signal and creating a second combined signal;
an second inversion means for inverting said second combined signal and outputting a second inverted combined signal;
a third control signal having a third control frequency and a third control phase wherein said third control frequency is substantially equal to said first control frequency and said third control phase is substantially 90°
out of phase with said first control phase;
a fourth control signal having a fourth control frequency and a fourth control phase, wherein said fourth control frequency is substantially equal to said third control frequency and said fourth control phase is substantially 180°
out of phase with said third control phase;
a third gating means for gating having a third control input;
said third control signal being coupled to said third control input, said third control signal causing said third gating means to gate said second combined signal at a rate that is a function of said third control frequency, thereby resulting in a second gated combined signal that is a function of said second combined signal;
a fourth gating means for gating having a fourth control input;
said fourth control signal being coupled to said fourth control input, said fourth control signal causing said fourth gating means to gate said second inverted combined signal at a rate that is a function of said fourth control frequency, thereby resulting in a second gated inverted combined signal that is a function of said second inverted combined signal;
a second summer accepting said second gated combined signal and said second gated inverted combined signal thereby creating a quadrature-phase phase-and-amplitude-modulated harmonically rich signal; and
a summing means for summing said in-phase phase-and-amplitude-modulated harmonically rich signal and said quadrature-phase phase-and-amplitude-modulated harmonically rich signal thereby creating an in-phase/quadrature-phase phase-and-amplitude-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (104)
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105. A system for up-converting and modulating a first information signal, a second information signal, third information signal, and a fourth information signal, comprising:
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a first multiplier accepting the first information signal and the second information signal and creating a first combined signal;
a first gating means for gating having a first control input, said first control input accepting a first control signal having a first control frequency and a first control phase, said first control signal causing said first gating means to gate said first combined signal at a rate that is a function of said first control frequency, thereby resulting in an in-phase gated combined signal that is a function of said first combined signal;
a first differentiation module accepting said in-phase gated combined signal and creating an in-phase phase-and-amplitude-modulated harmonically rich signal;
a multiplier accepting the third information signal and the fourth information signal and creating a second combined signal;
a second gating means for gating having a second control input, said second control input accepting a second control signal having a second control frequency and a second control phase, wherein said second control frequency is substantially equal to said first control frequency, and said second control phase is substantially 90°
out of phase with said first control phase;
said second control signal causing said second gating means to gate said second combined signal at a rate that is a function of said second control frequency, thereby resulting in an quadrature-phase gated combined signal that is a function of said second combined signal;
a second differentiation module accepting said quadrature-phase gated information signal and creating a quadrature-phase phase-and-amplitude-modulated harmonically rich signal; and
a summing means for summing said in-phase phase-and-amplitude-modulated harmonically rich signal and said quadrature-phase phase-and-amplitude-modulated harmonically rich signal thereby creating an in-phase/quadrature-phase phase-and-amplitude-modulated harmonically rich signal having a plurality of harmonics, at least one of said plurality of harmonics being a desired harmonic. - View Dependent Claims (106)
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107. A method of up-converting and modulating an information signal, comprising the steps of:
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(1) inverting the information signal to create an inverted information signal;
(2) gating a first input signal using a first reference potential, said first input signal being a function of the information signal, thereby creating a first gated information signal;
(3) gating a second input signal using a second reference potential, said second input signal being a function of said inverted information signal, thereby creating a second gated information signal; and
(4) combining said first gated information signal and said second gated information signal to create a modulated harmonically rich signal. - View Dependent Claims (108, 109, 110)
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111. A method of up-converting and modulating a first information signal and a second information signal, comprising the steps of:
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(1) multiplying the first information signal and the second information signal to create a combined signal;
(2) gating an input signal, said input signal being a function of said combined signal, thereby creating a gated information signal; and
(3) differentiating said gated information signal to create a modulated harmonically rich signal. - View Dependent Claims (112, 113, 114, 115)
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116. A method of up-converting and modulating a first information signal and a second information signal, comprising the steps of:
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(1) multiplying the first information signal and the second information signal to create a combined signal;
(2) inverting said combined signal to create an inverted combined signal;
(3) gating a first input signal, said first input signal being a function of said combined signal, thereby creating a first gated combined signal;
(4) gating a second input signal, said second input signal being a function of said inverted combined signal, thereby creating a second gated combined signal; and
(5) combining said first gated combined signal and said second gated combined signal to create a modulated harmonically rich signal. - View Dependent Claims (117, 118, 119, 120)
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121. A method of up-converting and modulating a first information signal and a second information signal, comprising the steps of:
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(1) gating a first input signal, said first input signal being a function of the first information signal, thereby creating a first gated information signal;
(2) differentiating said first gated information signal to create a first modulated harmonically rich signal;
(3) gating a second input signal, said second input signal being a function of the second information signal, thereby creating a second gated information signal;
(4) differentiating said second gated information signal to create a second modulated harmonically rich signal; and
(5) combining said first modulated harmonically rich signal and said second modulated harmonically rich signal to create a combined modulated harmonically rich signal. - View Dependent Claims (122, 123, 124, 125)
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126. A method of up-converting and modulating a first information signal and a second information signal, comprising the steps of:
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(1) inverting the first information signal, thereby creating a first inverted signal;
(2) inverting the second information signal, thereby creating a second inverted signal;
(3) gating a first input signal, said first input signal being a function of the first information signal, thereby creating a first gated signal;
(4) gating a second input signal, said second input signal being a function of the first inverted signal, thereby creating a second gated signal;
(5) gating a third input signal, said first input signal being a function of the second information signal, thereby creating a third gated signal;
(6) gating a fourth input signal, said first input signal being a function of the second inverted signal, thereby creating a fourth gated signal;
(7) combining said first gated signal and said second gated signal to create a first modulated harmonically rich signal;
(8) combining said third gated signal and said fourth gated signal to create a second modulated harmonically rich signal; and
(9) combining said first modulated harmonically rich signal and said second modulated harmonically rich signal to create a combined modulated harmonically rich signal. - View Dependent Claims (127)
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128. A method of up-converting and modulating a first information signal, a second information signal, a third information signal, and a fourth information signal comprising the steps of:
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(1) multiplying the first information signal and the second information signal, thereby creating a first combined signal;
(2) multiplying the third information signal and the fourth information signal, thereby creating a second combined signal;
(3) gating a first input signal, said first input signal being a function of said first combined signal, thereby creating a first gated signal;
(4) gating a second input signal, said second input signal being a function of said second combined signal, thereby creating a second gated signal;
(5) differentiating said first gated signal, thereby creating a first modulated harmonically rich signal;
(6) differentiating said second gated signal, thereby creating a second modulated harmonically rich signal; and
(7) combining said first modulated harmonically rich signal and said second modulated harmonically rich signal to create a combined modulated harmonically rich signal. - View Dependent Claims (129)
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130. A method of up-converting and modulating a first information signal, a second information signal, a third information signal, and a fourth information signal comprising the steps of:
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(1) multiplying the first information signal and the second information signal, thereby creating a first combined signal;
(2) multiplying the third information signal and the fourth information signal, thereby creating a second combined signal;
(3) inverting said first combined signal, thereby creating a first inverted combined signal;
(4) inverting said second combined signal, thereby creating a second inverted combined signal;
(5) gating a first input signal, said first input signal being a function of the first combined signal, thereby creating a first gated signal;
(6) gating a second input signal, said second input signal being a function of the first inverted combined signal, thereby creating a second gated signal;
(7) gating a third input signal, said first input signal being a function of the second combined signal, thereby creating a third gated signal;
(8) gating a fourth input signal, said first input signal being a function of the second combined inverted signal, thereby creating a fourth gated signal;
(9) combining said first gated signal and said second gated signal to create a first modulated harmonically rich signal;
(10) combining said third gated signal and said fourth gated signal to create a second modulated harmonically rich signal; and
(11) combining said first modulated harmonically rich signal and said second modulated harmonically rich signal to create a combined modulated harmonically rich signal. - View Dependent Claims (131)
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Specification