2-level series-gated current mode logic with inductive components for high-speed circuits

US 6,777,988 B2
Filed: 04/30/2002
Issued: 08/17/2004
Est. Priority Date: 04/30/2002
Status: Expired due to Fees

First Claim

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1. An integrated circuit for processing high-speed signals, the integrated circuit comprising:

a first differential circuit and a second differential circuit, both outputs of the two differential circuits connected in parallel;

two resistors;

a transformer including two inductors that are coupled by a coupling factor K, each of the inductors coupled between one of the two resistors and one of two transistors in either one of the two differential circuits, wherein inductance value of either one of the inductors as well as the coupling factor K are adjusted to create resonate frequencies in conjunction with parasitic capacitors of the transistors in the two differential circuits to compensate for parasitic effects caused by the parasitic capacitors so as to increase operating frequency ranges of the integrated circuit.

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Abstract

A fundamental building block of 2-level series-gated CML-based CMOS circuit which includes a number of inductive components for an electronic circuit system is disclosed that is capable of driving a significant level of external capacitive load at a high input clock frequency while providing a high level of output signal fidelity for optical data communication. The inductive components can be implemented as either separate inductors or as differentially coupled pairs forming a corresponding transformer element. The value of any particular inductive component is first selected to approximately resonate, at the desired output signal frequency, with its associated equivalent node capacitance but further adjusted to a final value that results in a minimum output waveform distortion for the particular application. Two exemplary cases of application, a Divide-by-2 counter and a Master Slave D-type Flip Flop are presented with associated time domain output waveforms.

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14 Claims

1. An integrated circuit for processing high-speed signals, the integrated circuit comprising:
- a first differential circuit and a second differential circuit, both outputs of the two differential circuits connected in parallel;
  
  two resistors;
  
  a transformer including two inductors that are coupled by a coupling factor K, each of the inductors coupled between one of the two resistors and one of two transistors in either one of the two differential circuits, wherein inductance value of either one of the inductors as well as the coupling factor K are adjusted to create resonate frequencies in conjunction with parasitic capacitors of the transistors in the two differential circuits to compensate for parasitic effects caused by the parasitic capacitors so as to increase operating frequency ranges of the integrated circuit.
- View Dependent Claims (2, 6, 7)
- - 2. The integrated circuit of claim 1 further comprising a second level differential circuit receiving a clock signal and coupled to the first differential circuit and the second differential circuit.
  - 6. The integrated circuit of claim 1, wherein the translators are selected from a group consisting of Complementary Metal Oxide Semiconductor (CMOS), N-channel Metal Oxide Semiconductor (NMOS), P-channel Metal Oxide Semiconductor (PMOS), N-channel Junction FET and P-channel Junction FET.
  - 7. The integrated circuit of claim 1, wherein the integrated circuit is designed for flip-flops, dividers, counters, frequency multipliers, frequency synthesizers, multiplexers, demultiplexers, phase locked loops, phase detectors and frequency detectors.

3. The integrated circuit of claim wherein 1, the coupling factor K is independently adjusted.
- View Dependent Claims (4, 5)
- - 4. The integrated circuit of claim 3, wherein a determination of the coupling factor K controls a level of output signal ripple, output signal jitter, unwanted output signal oscillation, signal dynamic range, signal linearity, accuracy of an output signal waveform or output signal phase angle.
  - 5. The integrated circuit of claim 3, wherein the coupling factor K is set to be zero such that the two inductors function like two separate inductors.

8. A method for processing high-speed signals in an integrated circuit for, the method comprising:
- providing a first differential circuit and a second differential circuit, both outputs of the two differential circuits connected in parallel;
  
  providing two resistors;
  
  providing a transformer including two inductors that are coupled by a coupling factor K, each of the inductors coupled between one of the two resistors and one of two transistors in either one of the two differential circuits;
  
  adjusting inductance value of either one of the inductors as well as the coupling factor K to create resonate frequencies in conjunction with parasitic capacitors of the transistors in the two differential circuits to compensate for parasitic effects caused by the parasitic capacitors so as to increase operating frequency ranges of the integrated circuit.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The method of claim 8 further comprising a second level differential circuit receiving a clock signal and coupled to the first differential circuit and the second differential circuit.
  - 10. The method of claim 8, wherein the coupling factor K is independently adjusted.
  - 11. The method of claim 8, wherein a determination of the coupling factor K controls a level of output signal ripple, output signal jitter, unwanted output signal oscillation, signal dynamic range, signal linearity, accuracy of an output signal waveform or output signal phase angle.
  - 12. The method of claim 8, wherein the coupling factor K is set to be zero such that the two inductors function like two separate inductors.
  - 13. The method of claim 8, wherein the transistors are selected from a group consisting of Complementary Metal Oxide Semiconductor (CMOS), N-channel Metal Oxide Semiconductor (NMOS), P-channel Metal Oxide Semiconductor (PMOS), N-channel Junction FET and P-channel Junction FET.
  - 14. The method of claim 8, wherein the integrated circuit is designed for flip-flops, dividers, counters, frequency multipliers, frequency synthesizers, multiplexers, demultiplexers, phase locked loops, phase detectors and frequency detectors.

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Current Assignee
Qantec Communication, Inc.
Original Assignee
Qantec Communication, Inc.
Inventors
Zhang, Minghao, Tung, John C.
Primary Examiner(s)
Lam, Tuan T.

Application Number

US10/136,165
Publication Number

US 20030201815A1
Time in Patent Office

840 Days
Field of Search

327/199, 327/115, 327/117, 327/200, 327/201, 327/202, 327/203, 327/208, 327/209, 327/210, 327/218, 326/115, 326/127
US Class Current

327/115
CPC Class Codes

H03K 3/012 Modifications of generator ...

H03K 3/356139 with synchronous operation

2-level series-gated current mode logic with inductive components for high-speed circuits

First Claim

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Abstract

31 Citations

14 Claims

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2-level series-gated current mode logic with inductive components for high-speed circuits

First Claim

1 Assignment

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Abstract

31 Citations

14 Claims

Specification

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