Degeneration for a Wideband Voltage-Controlled Oscillator

US 20190089302A1
Filed: 09/15/2017
Published: 03/21/2019
Est. Priority Date: 09/15/2017
Status: Active Grant

First Claim

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1. A voltage-controlled oscillator (VCO) circuit comprising:

a tank circuit coupled to a pair of nodes, the pair of nodes including a first node and a second node;

a first cross-coupled transistor pair of a first transistor type, a drain terminal of a first transistor of the first cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a second transistor of the first cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the first transistor of the first cross-coupled transistor pair and a source terminal of the second transistor of the first cross-coupled transistor pair connected to a third node;

a second cross-coupled transistor pair of a second transistor type, a drain terminal of a third transistor of the second cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a fourth transistor of the second cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the third transistor of the second cross-coupled transistor pair and a source terminal of the fourth transistor of the second cross-coupled transistor pair connected to a fourth node; and

a degeneration network comprising;

a first inductor connected between the third node and a supply voltage;

a second inductor connected between the fourth node and a ground; and

a capacitor, a first terminal of the capacitor connected to the third node and a second terminal of the capacitor connected to the fourth node.

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Abstract

The present disclosure describes aspects of degeneration for a wideband voltage-controlled oscillator (VCO) circuit. In some aspects, the VCO circuit includes a degeneration network that includes a first inductor, a second inductor, and a capacitor. The degeneration network is connected between the a supply voltage and ground, with the capacitor connected across the differential VCO, between the sources of cross-coupled PMOS transistors and the sources of cross-coupled NMOS transistors. Control circuitry selects an inductance value of a switched inductance network to select a frequency band in which the VCO circuit operates. The control circuitry also sets a switched capacitor bank and a variable capacitor bank to tune the VCO circuit to an operating frequency within the selected frequency band. The control circuitry further tunes the degeneration network to degenerate the VCO circuit to reduce phase noise in an output signal of the VCO circuit.

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30 Claims

1. A voltage-controlled oscillator (VCO) circuit comprising:
- a tank circuit coupled to a pair of nodes, the pair of nodes including a first node and a second node;
  
  a first cross-coupled transistor pair of a first transistor type, a drain terminal of a first transistor of the first cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a second transistor of the first cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the first transistor of the first cross-coupled transistor pair and a source terminal of the second transistor of the first cross-coupled transistor pair connected to a third node;
  
  a second cross-coupled transistor pair of a second transistor type, a drain terminal of a third transistor of the second cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a fourth transistor of the second cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the third transistor of the second cross-coupled transistor pair and a source terminal of the fourth transistor of the second cross-coupled transistor pair connected to a fourth node; and
  
  a degeneration network comprising;
  
  a first inductor connected between the third node and a supply voltage;
  
  a second inductor connected between the fourth node and a ground; and
  
  a capacitor, a first terminal of the capacitor connected to the third node and a second terminal of the capacitor connected to the fourth node.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The VCO circuit of claim 1, wherein the capacitor is a switched degeneration capacitor bank, and wherein the switched degeneration capacitor bank is configured to provide a degeneration capacitance value selected from multiple capacitance values based on a degeneration-tuning control signal.
  - 3. The VCO circuit of claim 2, wherein the selected degeneration capacitance value tunes the degeneration network to degenerate the VCO circuit.
  - 4. The VCO circuit of claim 3, wherein the degeneration network is tunable to a frequency that is approximately twice a resonant frequency of the tank circuit.
  - 5. The VCO circuit of claim 3, wherein the degeneration network is tunable to reduce a level of phase noise in an output signal of the VCO circuit.
  - 6. The VCO circuit of claim 1, wherein the first inductor and the second inductor have a same inductance value.
  - 7. The VCO circuit of claim 1, wherein the first inductor and the second inductor have different inductance values.
  - 8. The VCO circuit of claim 1, wherein the tank circuit comprises:
    - a third inductor connected to the pair of nodes;
      
      a switched capacitor bank connected to the pair of nodes; and
      
      a variable capacitor bank connected to the pair of nodes.
  - 9. The VCO circuit of claim 8, wherein:
    - the third inductor is a switched inductor network and the switched inductor network is configured to provide an inductance value from multiple inductance values, based on a band-selection control signal;
      
      the switched capacitor bank is configured to provide a coarse-tuning capacitance value from multiple capacitance values provided by the switched capacitor bank, based on a coarse-tuning control signal; and
      
      the variable capacitor bank is configured to set a fine-tuning capacitance value from a range of capacitance values provided by the variable capacitor bank, based on a fine-tuning control signal.
  - 10. The VCO circuit of claim 9, wherein the band-selection control signal, the coarse-tuning control signal, and the fine-tuning control signal determine a resonant frequency of the tank circuit.
  - 11. The VCO circuit of claim 9, wherein:
    - the switched capacitor bank is configured to couple or uncouple capacitors based on multiple bits in a control value of the coarse-tuning control signal; and
      
      the switched inductor network is configured to switch between a first inductance value and a second inductance value.
  - 12. The VCO circuit of claim 1, wherein:
    - the first transistor and the second transistor of the first transistor type comprise P-channel metal oxide semiconductor (PMOS) transistors; and
      
      the third transistor and the fourth transistor of the second transistor type comprise N-channel metal oxide semiconductor (NMOS) transistors.

13. A voltage-controlled oscillator (VCO), including:
- a tank circuit coupled to a pair of nodes, the pair of nodes including a first node and a second node;
  
  a first cross-coupled transistor pair of a first transistor type, a drain terminal of a first transistor of the first cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a second transistor of the first cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the first transistor of the first cross-coupled transistor pair and a source terminal of the second transistor of the first cross-coupled transistor pair connected to a third node;
  
  a second cross-coupled transistor pair of a second transistor type, a drain terminal of a third transistor of the second cross-coupled transistor pair connected to the first node of the pair of nodes, a drain terminal of a fourth transistor of the second cross-coupled transistor pair connected to the second node of the pair of nodes, and a source terminal of the third transistor of the second cross-coupled transistor pair and a source terminal of the fourth transistor of the second cross-coupled transistor pair connected to a fourth node; and
  
  means for providing differential degeneration to the VCO.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
- - 14. The VCO of claim 13, wherein the means for providing the differential degeneration to the VCO comprises:
    - a first inductor;
      
      a second inductor; and
      
      means for providing a degeneration capacitance.
  - 15. The VCO of claim 14, wherein:
    - the first inductor is connected between the third node and a supply voltage;
      
      the second inductor is connected between the fourth node and a ground; and
      
      the means for providing the degeneration capacitance comprises a capacitor, a first terminal of the capacitor is connected to the third node and a second terminal of the capacitor is connected to the fourth node.
  - 16. The VCO of claim 15 wherein:
    - the capacitor comprises a switched degeneration capacitor bank; and
      
      the switched degeneration capacitor bank is configured to be controlled by a degeneration-tuning control signal to select a degeneration capacitance from multiple capacitance values provided by the switched degeneration capacitor bank.
  - 17. The VCO of claim 16, wherein the selected degeneration capacitance tunes the means for providing the differential degeneration to the VCO.
  - 18. The VCO of claim 16, wherein the selected degeneration capacitance tunes the means for providing the differential degeneration to the VCO to reduce a level of phase noise generated by the VCO.
  - 19. The VCO of claim 16, wherein the means for providing the differential degeneration to the VCO is tunable to a frequency that is approximately twice a tuning frequency of the VCO.
  - 20. The VCO of claim 13, wherein the tank circuit comprises:
    - a switched inductor network connected to the pair of nodes;
      
      a switched capacitor bank connected to the pair of nodes; and
      
      a variable capacitor bank connected to the pair of nodes.
  - 21. The VCO of claim 20, whereinthe switched inductor network is configured to provide an inductance value from multiple inductance values, based on a band-selection control signal;
    - the switched capacitor bank is configured to provide a coarse-tuning capacitance value from multiple capacitance values provided by the switched capacitor bank, based on a coarse-tuning control signal; and
      
      the variable capacitor bank is configured to set a fine-tuning capacitance value from a range of capacitance values provided by the variable capacitor bank, based on a fine-tuning control signal.

22. A voltage-controlled oscillator (VCO) operating method comprising:
- generating an oscillating signal having a fundamental frequency using a VCO comprising;
  
  a tank circuit;
  
  a first cross-coupled transistor pair of a first transistor type, drain terminals of the first cross-coupled transistor pair being connected to the tank circuit, and source terminals of the first cross-coupled transistor pair being connected to a first node; and
  
  a second cross-coupled transistor pair of a second transistor type, drain terminals of the second cross-coupled transistor pair of the second transistor type being connected to the tank circuit, and source terminals of the second cross-coupled transistor pair being connected to a second node;
  
  presenting a frequency-dependent impedance to the source terminals of the cross-coupled transistor pairs using a resonant circuit, the resonant circuit comprising;
  
  a first inductor connected between the first node and a supply voltage;
  
  a second inductor connected between the second node and a ground; and
  
  a capacitor connected between the first node and the second node; and
  
  wherein the resonant circuit is tuned to resonate at a frequency that is twice the fundamental frequency.
- View Dependent Claims (23, 24, 25, 26, 27)
- - 23. The method of claim 22, wherein the capacitor is a switched capacitor bank, and wherein the switched capacitor bank is configured to provide a capacitance value selected from multiple capacitance values.
  - 24. The method of claim 23, the method further comprising:
    - tuning the resonant circuit to the frequency by selecting the capacitance value from the multiple capacitance values.
  - 25. The method of claim 24, the tuning the resonant circuit reduces a level of phase noise in an output signal of the VCO.
  - 26. The method of claim 22, wherein the tank circuit comprises:
    - an inductor; and
      
      a variable capacitor bank.
  - 27. The method of claim 26, wherein the inductor comprises a switched inductor network.

28. A frequency synthesizer apparatus, comprisinga phase locked loop (PLL) synthesizer comprising:
- a reference oscillator configured to generate a reference frequency signal; and
  
  a voltage-controlled oscillator (VCO) configured to generate an output signal having a frequency that is controlled at least partially by the reference frequency signal, the VCO including a degeneration network that is configured to degenerate phase noise in the output signal of the VCO in response to a degeneration-tuning control signal, the degeneration network comprising a degeneration capacitor bank that is configured to tune the degeneration network in relation to the frequency of the VCO.
- View Dependent Claims (29, 30)
- - 29. The frequency synthesizer apparatus of claim 28, further comprising:
    - a control signal generator configured to provide;
      
      a band-selection control signal to select an inductance from multiple inductance values provided by a switched inductor network included in the VCO, the selected inductance value determining a frequency band of operation for the frequency synthesizer;
      
      a coarse-tuning control signal and a fine-tuning control signal to set the frequency of the output signal of the VCO; and
      
      the degeneration-tuning control signal to tune the degeneration network to provide the differential degeneration signal to reduce the phase noise in the output signal of the VCO.
  - 30. The frequency synthesizer apparatus of claim 29, wherein the degeneration capacitor bank is connected in parallel with the VCO.

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Current Assignee
Qualcomm, Inc.
Original Assignee
Qualcomm, Inc.
Inventors
Moslehi Bajestan, Masoud, Mohammadi Izad, Mehran, Farazian, Mohammad

Granted Patent

US 10,381,981 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

H03B 2200/009   Reduction of phase noise

H03B 5/1212   the amplifier comprising a ...

H03B 5/1215   the current source or degen...

H03B 5/1228   the amplifier comprising on...

H03B 5/1243   the means comprising voltag...

H03B 5/1265   switched capacitors

H03B 5/1268   switched inductors

H03L 2207/06   Phase locked loops with a c...

H03L 7/093   using special filtering or ...

H03L 7/099   concerning mainly the contr...

Degeneration for a Wideband Voltage-Controlled Oscillator

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Degeneration for a Wideband Voltage-Controlled Oscillator

First Claim

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Accused Products

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Abstract

Citations

30 Claims

Specification

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