System and method for designing and using analog circuits operating in the modulation domain
First Claim
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1. A circuit for providing an output signal that is the ratio of two input signals, said circuit comprising:
- means for receiving a divisor input signal and a dividend input signal; and
means for providing a quotient signal having a phase modulation index proportional to the ratio of said dividend input signal to said divisor input signal.
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Abstract
A computation circuit operates in the modulation domain to generate a signal having phase modulation proportional to the ratio of the dividend (numerator) signal to the divisor (denominator) signal. The phase modulated signal may be demodulated by a phase demodulator to produce a baseband quotient signal. The divisor signal maintains inverse proportional control of the modulation gain of the modulator by varying the carrier injection level, resulting in higher bandwidth and accuracy, and lower drift and offset compared to traditional analog computation techniques. The circuit may contain all linear components, even though the division function is a non-linear function. The circuit and method operate when the input signals are analog or both are in the modulation domain.
71 Citations
25 Claims
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1. A circuit for providing an output signal that is the ratio of two input signals, said circuit comprising:
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means for receiving a divisor input signal and a dividend input signal; and
means for providing a quotient signal having a phase modulation index proportional to the ratio of said dividend input signal to said divisor input signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
means for phase demodulating said quotient signal to provide an output signal as a baseband signal.
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3. The circuit of claim 2 wherein said providing means is an Armstrong phase modulator modified to have its modulation sensitivity controllable.
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4. The circuit of claim 2 wherein said quotient signal may include amplitude modulation and wherein said circuit further includes:
means for removing any said amplitude modulation from said quotient signal.
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5. The circuit of claim 4 wherein said removing means is a limiter inserted ahead of said phase demodulating means.
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6. The circuit of claim 1 wherein said providing means includes a vector modulator having cartesian inputs.
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7. The circuit of claim 1 wherein said providing means includes an I/Q modulator where the Q input receives the dividend input signal and wherein the I input receives the divisor input and the LO input receives a carrier source input.
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8. The circuit of claim 1 wherein said providing means includes an I/Q modulator where the I input receives the dividend input signal and wherein the Q input receives the divisor input and the LO input receives a carrier source input.
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9. The circuit of claim 2 wherein said phase demodulating means receives as one input said quotient signal and receives as a second input a non-phase shifted amplified carrier signal.
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10. The circuit of claim 9 wherein said phase demodulator means is a multiplier.
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11. The circuit of claim 10 wherein an output signal of said multiplier is low pass filtered.
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12. A circuit for dividing a first analog signal by a second analog signal, said circuit comprising:
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a double side band suppressed carrier modulator for accepting said first analog signal and for accepting a sine wave carrier signal;
an amplitude modulator for accepting said second analog signal and for accepting a phase shifted carrier signal;
an adder for combining the outputs of said double side band suppressed carrier modulator and said amplitude modulator; and
a phase demodulator for accepting said carrier signal and for accepting the output of said adder, said phase demodulator providing, as an output, a signal which is said first signal divided by said second signal. - View Dependent Claims (13, 14)
a limiter for accepting the output from said adder prior to said output being supplied to said phase modulator.
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15. A circuit for processing input signals, said circuit comprising:
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a first multiplier having one input for accepting one of said input signals and a second input for accepting a sine wave carrier signal;
a second multiplier having one input for accepting a second one of said input signals and a second input for accepting a signal which has been phase shifted from said sine wave carrier;
an adder for adding the outputs of said multipliers to provide an added output signal; and
a third multiplier having one input for accepting said added output signal, a second input for accepting said sine wave carrier signal so as to provide an output signal which is the quotient of said first signal divided by said second signal. - View Dependent Claims (16)
a limiter for stripping off at least a portion of the amplitude modulation of said added output signal.
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17. An analog divider circuit, comprising:
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a first input line for receiving a first analog signal;
a second input line for receiving a second analog signal;
a first amplitude modulator for amplitude modulating a first carrier signal by said first analog signal;
a second amplitude modulator for amplitude modulating a second carrier signal by said second analog signal, wherein said second carrier signal is out-of-phase relative to said first carrier signal by ninety degrees;
an adder for adding output signals from said first amplitude modulator and said second amplitude modulator; and
a phase demodulator for demodulating an output signal from said adder to generate an analog quotient signal with an amplitude that is a ratio of amplitudes of said first analog signal and said second analog signal. - View Dependent Claims (18, 19)
a limiter disposed between said adder and said phase demodulator.
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19. The analog divider of claim 17 further comprising:
a low pass filter for filtering said analog quotient signal.
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20. A method of operating a divider circuit, comprising:
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receiving first and second analog signals;
amplitude modulating first and second carrier signals, that are ninety degrees out-of-phase, respectively by said first and second analog signals;
combining said first and second amplitude modulated carrier signals to generate a phase modulated combined signal; and
phase demodulating said phase modulated combined signal to generate a quotient signal with an amplitude that is a ratio of amplitudes of said first and second analog signals. - View Dependent Claims (21, 22)
filtering said quotient signal.
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22. The method of claim 20 further comprising:
limiting said phase modulated first carrier signal after performing said combining.
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23. An analog divider circuit, comprising:
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a vector modulator receiving first and second input signals, wherein said vector modulator is operable to perform phase modulation using said first and second input signals to generate a modulation domain signal with a modulation index that is proportional to a ratio of said first and second input signals; and
a phase demodulator coupled to said vector modulator to receive said modulation domain signal, wherein said phase demodulator generates a quotient signal with an amplitude that is a ratio of amplitudes of said first and second analog signals. - View Dependent Claims (24, 25)
a low pass filter for rejecting spurious signals near a second harmonic of said carrier.
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Specification
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Current AssigneeAgilent Technologies, Inc.
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Original AssigneeAgilent Technologies, Inc.
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InventorsKarlquist, Richard K.
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Primary Examiner(s)Jeanglaude, Jean Bruner
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Application NumberUS10/328,304Publication NumberTime in Patent Office575 DaysField of Search341/143, 341/155, 342/433, 342/200, 332/145, 714/792, 375/271US Class Current341/143CPC Class CodesG06G 7/16 for multiplication or divis...
