Voltage Controlled Oscillator (VCO) with a wide tuning range and substantially constant voltage swing over the tuning range
First Claim
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1. A voltage controlled oscillator (VCO) including:
- a plurality N of amplifier stages, each amplifier stage comprising a differential output, a differential primary input, and a differential feedback input, and at least one of the amplifier stages including a differential tuning input, wherein;
(a) each differential output is connected to the differential primary input of a different stage so as to form a ring of stages;
(b) the differential feedback input of each stage is connected to the differential output of an immediately following stage in the ring; and
(c) said at least one of the amplifier stages comprises;
(i) a primary amplifier terminating the differential primary input and including a primary controllable gain function block and a first current source;
(ii) a secondary amplifier terminating the differential feedback input and including a secondary controllable gain function block and a second current source;
(iii) a common amplifier load section for combining the outputs of the primary amplifier and the secondary amplifier; and
(iv) a tuning circuit terminating the differential tuning input and connected to the first and second current sources for adjusting gains of the primary and secondary amplifiers respectively;
(v) the tuning circuit comprising a third current source and means for directing a fraction of the current from the third current source to one of the first and second current sources, and directing the remaining fraction of the current from the third current source to the other one of the first and second current sources, to control relative gains of the primary and secondary amplifiers, thereby controlling an oscillating frequency of the ring.
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Abstract
A wide tuning range and constant swing VCO is described that is based on a multipass Ring Oscillator enhanced with feed-backward connections. This VCO is designed to overcome tuning range limitations of prior-art “feed-forward” ring oscillators. The Feedback multipass Ring Oscillator of the invention provides decreasing frequency when tuned by increasing the feedback, thus covering a much wider tuning range irrespective of the speed limit of the technology while at the same time providing almost constant amplitude.
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Citations
15 Claims
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1. A voltage controlled oscillator (VCO) including:
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a plurality N of amplifier stages, each amplifier stage comprising a differential output, a differential primary input, and a differential feedback input, and at least one of the amplifier stages including a differential tuning input, wherein; (a) each differential output is connected to the differential primary input of a different stage so as to form a ring of stages; (b) the differential feedback input of each stage is connected to the differential output of an immediately following stage in the ring; and (c) said at least one of the amplifier stages comprises; (i) a primary amplifier terminating the differential primary input and including a primary controllable gain function block and a first current source; (ii) a secondary amplifier terminating the differential feedback input and including a secondary controllable gain function block and a second current source; (iii) a common amplifier load section for combining the outputs of the primary amplifier and the secondary amplifier; and (iv) a tuning circuit terminating the differential tuning input and connected to the first and second current sources for adjusting gains of the primary and secondary amplifiers respectively; (v) the tuning circuit comprising a third current source and means for directing a fraction of the current from the third current source to one of the first and second current sources, and directing the remaining fraction of the current from the third current source to the other one of the first and second current sources, to control relative gains of the primary and secondary amplifiers, thereby controlling an oscillating frequency of the ring. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of generating a variable frequency in a ring oscillator having N amplifier stages, the method comprising:
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inputting an output of each stage to a primary input of the next stage in the ring; inputting an output of a subsequent stage to a secondary input of the each stage so as to provide a feedback having a phase delay relative to the primary input; amplifying the primary input by a variable primary gain controlled by a primary controllable gain function block and a first current source; amplifying the secondary input by a variable secondary gain controlled by a secondary controllable gain function block and a second current souse; combining outputs of the primary amplifier and the secondary amplifier; and controlling the primary and secondary controllable gain function blocks with a control voltage by dividing a current from a tuning circuit comprising a third current source in a continuously adjustable proportion as a function of said control voltage, including directing a fraction of the current from the third current source to one of the first and second current sources and directing the remaining fraction of the current from the third current source to the other one of the first and second current sources, thereby controlling an oscillating frequency of the ring. - View Dependent Claims (8, 9)
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10. A phase lock loop (PLL) including a voltage controlled oscillator (VCO), the VCO having a plurality N of amplifier stages, each amplifier stage comprising a differential output, a differential primary input, and a differential feedback input, and at least one of the amplifier stages including a differential tuning input, wherein:
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the amplifier stages are arranged as follows; each differential output is connected to the differential primary input of a different stage to form a ring of stages; the differential feedback input of each stage is connected to the differential output of an immediately following stage in the ring; and at least one of the amplifier stages comprises; a primary amplifier terminating the differential primary input and including a primary controllable gain function block and a first current source; a secondary amplifier terminating the differential feedback input and including a secondary controllable gain function block and a second current source; a common amplifier load section for combining the outputs of the primary amplifier and the secondary amplifier; and a tuning circuit terminating the differential tuning input and connected to the first and second current sources for adjusting gains of the primary and secondary amplifiers respectively; the tuning circuit comprising a third current source and means for directing a fraction of the current from the third current source to one of the first and second current sources, and directing the remaining fraction of the current from the third current source to the other one of the first and second current sources, to control relative gains of the primary and secondary amplifiers, thereby controlling an oscillating frequency of the ring. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification