Combined variable gain amplifier and analog equalizer circuit
First Claim
1. A receiver for a communication link, the receiver comprising:
- a combined variable-gain amplifier and analog equalizer circuit comprising;
a current-mode logic (CML) amplifier having an input terminal, an output terminal, and a gain control terminal, the amplifier operable to amplify, with an adjustable gain, a signal received at the input terminal and provide the amplified signal at the output terminal;
an inductive load circuit coupled to the output terminal of the CML amplifier and having an inductance such that the CML amplifier has a first gain at frequencies below a predetermined frequency value and a second gain at frequencies in a predetermined frequency range above the predetermined frequency value, wherein the second gain is higher than the first gain;
a gain controller connected to the output and gain-control terminals of the CML amplifier and adapted (i) to receive the amplified signal at the output terminal of the CML amplifier as a feedback and (ii) to provide a gain-control signal to the gain-control terminal of the CML amplifier based on the feedback signal; and
the CML amplifier is adapted to adjust the first and second gains based on the pain-control signal.
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Accused Products
Abstract
In one embodiment, a combined VGA-and-equalizer (VGA-EQ) circuit for a communication link includes a current-mode logic (“CML”) amplifier with an inductive load circuit. The CML amplifier has a gain control terminal and is operable to amplify, with an adjustable gain, a signal received at an input terminal and provide the amplified signal at an output terminal. The CML amplifier has a first gain at frequencies below a predetermined frequency value and a second gain at frequencies in a predetermined frequency range above the predetermined frequency value, wherein the second gain is higher than the first gain. The higher second gain of the VGA-EQ circuit causes a reduction in inter-symbol interference in a signal received by the receiver.
48 Citations
17 Claims
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1. A receiver for a communication link, the receiver comprising:
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a combined variable-gain amplifier and analog equalizer circuit comprising; a current-mode logic (CML) amplifier having an input terminal, an output terminal, and a gain control terminal, the amplifier operable to amplify, with an adjustable gain, a signal received at the input terminal and provide the amplified signal at the output terminal; an inductive load circuit coupled to the output terminal of the CML amplifier and having an inductance such that the CML amplifier has a first gain at frequencies below a predetermined frequency value and a second gain at frequencies in a predetermined frequency range above the predetermined frequency value, wherein the second gain is higher than the first gain; a gain controller connected to the output and gain-control terminals of the CML amplifier and adapted (i) to receive the amplified signal at the output terminal of the CML amplifier as a feedback and (ii) to provide a gain-control signal to the gain-control terminal of the CML amplifier based on the feedback signal; and the CML amplifier is adapted to adjust the first and second gains based on the pain-control signal. - View Dependent Claims (2, 3, 4, 5)
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6. A receiver for a communication link, the receiver comprising:
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a combined variable-gain amplifier and analog equalizer circuit comprising; a current-mode logic (CML) amplifier having an input terminal, an output terminal, and a gain control terminal, the amplifier operable to amplify, with an adjustable gain, a signal received at the input terminal and provide the amplified signal at the output terminal; and an inductive load circuit coupled to the output terminal of the CML amplifier and having an inductance such that the CML amplifier has a first gain at frequencies below a predetermined frequency value and a second gain at frequencies in a predetermined frequency range above the predetermined frequency value, wherein the second gain is higher than the first gain, wherein the CML amplifier comprises (i) first and second amplifying transistors, (ii) first and second gain-adjustment transistors, each connected to a different one of the first and second amplifying transistors, and (iii) a current source connected to the first and second amplifying transistors and to ground.
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7. A method of equalizing a signal having inter-symbol interference, the method comprising:
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(a) receiving the signal; (b) amplifying the signal via a current-mode logic (CML) amplifier with an inductive load and an adjustable gain, the CML amplifier having a first gain at frequencies below a predetermined frequency and a second gain at frequencies in a predetermined frequency range above the predetermined frequency, wherein the second gain is higher than the first gain; (c) outputting the amplified signal; (d) providing the amplified signal to a gain controller; (e) the gain controller providing a gain-control signal to the CML amplifier based on the amplified signal; and (f) the CML amplifier adjusting the first and second gains based on the gain-control signal. - View Dependent Claims (8)
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9. An amplifier circuit (e.g., 400, 500), comprising:
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a first active inductor including a first transistor having a gate, a drain, and a source, wherein the drain of the first transistor is connected to a supply voltage and the gate of the first transistor is adapted to receive an inductance-adjustment signal; a second transistor having a gate, a drain, and a source, wherein the drain of the second transistor is connected to the source of the first transistor; a third transistor having a gate, a drain, and a source, wherein one of the drain or source of the third transistor is connected to the source of the second transistor and the gate of the third transistor is adapted to receive a gain-control signal, such that the third transistor is adapted to adjust the gain of the amplifier circuit based on the gain-control signal; a gain controller connected to the drain of the second transistor and to the gate of the third transistor and adapted (i) to receive a feedback signal from the drain of the second transistor and (ii) to provide the gain-control signal to the gate of the third transistor based on the feedback signal; and the third transistor is adapted to adjust the first and second gains based on the gain-control signal. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A receiver for a communication link, the receiver comprising:
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a receive-side analog equalizer comprising; a current-mode logic (CML) amplifier having an input terminal and an output terminal, the amplifier operable to amplify a signal received at the input terminal and provide the amplified signal at the output terminal, wherein the CML amplifier includes (i) first and second transistors, each having a gate, a drain, and a source, and (ii) a current source, wherein the sources of the first and second transistors are connected together to form a node, and the current source is connected between the node and ground; and an inductive load circuit coupled to the output terminal of the CML amplifier and having an inductance such that the CML amplifier has a first gain at frequencies below a predetermined frequency value and a second gain at frequencies in a predetermined frequency range above the predetermined frequency value, wherein the second gain is higher than the first gain; wherein the inductive load circuit includes first and second active inductors connected between a supply voltage and the drains of the first and second transistors, respectively, the first active inductor comprising; a third transistor having a gate, a drain, and a source, wherein the drain of the third transistor is connected to a supply voltage and the source of the third transistor is connected to the drain of the first transistor; and a first active resistor connected between a control voltage and the gate of the third transistor; the second active inductor comprising; a fourth transistor having a gate, a drain, and a source, wherein the drain of the fourth transistor is connected to a supply voltage and the source of the fourth transistor is connected to the drain of the second transistor; and a second active resistor connected between a control voltage and the gate of the fourth transistor; wherein the first active resistor of the first active inductor comprises; a fifth transistor having a gate, a drain, and a source, wherein the source of the fifth transistor is connected to the control voltage, and the drain of the fifth transistor is connected to the gate of the third transistor; and a second current source connected between the drain of the fifth transistor and ground; wherein the second active resistor of the second active inductor comprises; a sixth transistor having a gate, a drain, and a source, wherein the source of the sixth transistor is connected to the control voltage and the drain of the sixth transistor is connected to the gate of the fourth transistor; and a third current source connected between the source of the sixth transistor and ground; wherein the receive-side analog equalizer reduces inter-symbol interference in a signal received at the receiver. - View Dependent Claims (16, 17)
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Specification