Switched capacitor DSB modulator/demodulator
First Claim
1. An integrable switched capacitor circuit for operating in an amplitude modulator and/or demodulator comprising:
- an operational amplifier having an input terminal and an output terminal;
first and second capacitors C1 and C2;
first switch means operating at a prescribed rate in non-overlapping switch states for alternately discharging one of C1 and C2 while connecting the other of C1 and C2 as a feedback capacitor across said amplifier, and connecting said one of C1 and C2 as a feedback capacitor across said amplifier while discharging said other of C1 and C2; and
second means periodically operative in combination with said amplifier and feedback capacitors in a plurality of non-overlapping switch states at the prescribed rate for converting an input signal voltage into a representative electrical charge flow signal on said input terminal of said amplifier that is proportional to the product of representations of said input voltage in switch state time intervals and sequential values of a digital pulse train +K, +K, -K, -K, etc., where K is a constant and said pulse train has a repetition rate that is equal to the prescribed rate.
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Accused Products
Abstract
An integrated single-sideband modulator comprises six integrated capacitors C1-C6 and first switch means alternately connecting C1 and C2 as feedback capacitors across a differential input operational amplifier A1. The amplifier has a virtual ground potential on its inverting input terminal for causing it to operate as a voltage source and render the circuit relatively insensitive to parasitic capacitance effects associated with capacitor plates. Second switch means cooperates with A1, C1 and C2 and is responsive to 4-phase clock signals for driving input capacitors C3-C6 so as to convert first and second quadrature-phase input signal voltages into first and second electrical charge flow signals on the inverting input terminal that are a function of products of representations of the first and second voltages in switch state time intervals and associated pulse trains which have a 90° phase difference therebetween and a repetitive pattern such as +1, +1, -1, -1, etc. The amplifier and feedback capacitors combine the charge signals for producing a single-sideband signal on A1'"'"'s output terminal. This circuit is converted to a balanced modulator by omitting C5 and C6. In an alternate embodiment of a single sideband modulator that requires only a pair of switched capacitors C11 and C12, a 4-phase switch means alternately charges C11 and C12 with associated ones of the quadrature-phase input signal voltages while alternately connecting C12 and C11 as feedback capacitors across A1, the polarity of each capacitors feedback voltage being reversed each time that capacitor is connected across the amplifier. This circuit is operated as a balanced modulator by omitting one of the capacitors.
97 Citations
17 Claims
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1. An integrable switched capacitor circuit for operating in an amplitude modulator and/or demodulator comprising:
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an operational amplifier having an input terminal and an output terminal; first and second capacitors C1 and C2; first switch means operating at a prescribed rate in non-overlapping switch states for alternately discharging one of C1 and C2 while connecting the other of C1 and C2 as a feedback capacitor across said amplifier, and connecting said one of C1 and C2 as a feedback capacitor across said amplifier while discharging said other of C1 and C2; and second means periodically operative in combination with said amplifier and feedback capacitors in a plurality of non-overlapping switch states at the prescribed rate for converting an input signal voltage into a representative electrical charge flow signal on said input terminal of said amplifier that is proportional to the product of representations of said input voltage in switch state time intervals and sequential values of a digital pulse train +K, +K, -K, -K, etc., where K is a constant and said pulse train has a repetition rate that is equal to the prescribed rate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An integratable switched capacitor circuit for operating in an amplitude modulator and/or demodulator comprising:
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an input line adapted for receiving an input voltage; an operational amplifier having an input terminal and an output terminal; first and second capacitors C1 and C2; first switch means operating at a prescribed rate in non-overlapping switch states for alternately discharging C1 while connecting C2 as a feedback capacitor across said amplifier, and connecting C1 as a feedback capacitor while discharging C2; third and fourth capacitors C3 and C4 each having one and other sides theroef; and second means periodically operative in combination with said amplifier and feedback capacitors in a plurality of non-overlapping switch states occurring at the prescribed rate for connecting C3 and C4 so as to convert the input voltage into a representative electrical charge flow signal on said input terminal that is a function of the product of representations of the input signal voltage in switch states and sequential values of a digital pulse train with a repetitive pattern such as +K, +K, -K, -K, etc., where K is a constant and the pulse repetition rate is equal to the prescribed rate.
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10. An integrable switched capacitor circuit for operating in an amplitude modulator and/or demodulator comprising the combination of:
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an input line adapted for receiving an input voltage; an operational amplifier having an input terminal and an output terminal; first and second capacitors C1 and C2; first switch means operating at a prescribed rate in non-overlapping switch states for alternately discharging C1 while connecting C2 as a feedback capacitor across said amplifier, and coupling C1 as a feedback capacitor across said amplifier while discharging C2; and second means receiving signals on said input line and producing an output signal that is applied to said input terminal of said amplifier, said second means being periodically operative in combination with said amplifier and feedback capacitors for sensing the input voltage in a plurality of non-overlapping switch states at the prescribed rate for varying the closed loop gain of said combination for producing an output voltage on said output terminal that is proportional to the product of sensings of the input voltage in switch state time intervals and a digital pulse train +K, +K, -K, -K, etc., where K is a constant and said pulse train has a repetition rate that is equal to the prescribed rate. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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Specification