Low power CMOS crystal oscillator circuit

US 5,909,152 A
Filed: 02/27/1998
Issued: 06/01/1999
Est. Priority Date: 02/28/1997
Status: Expired due to Term

First Claim

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1. An integrated circuit crystal-stabilized oscillator, comprising:

a primary gain stage, operatively connected in a feedback circuit which includes connection for an external crystal;

an auxiliary gain stage, operatively connected in parallel with said primary gain stage;

a capacitor, connected to receive a first current contribution which changes as the amplitude of oscillation of said auxiliary gain stage increases; and

a supply current control stage which is operatively connected through a current mirror to cut off supply current to said auxiliary gain stage when said first current contribution has driven said capacitor past a voltage threshold.

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Abstract

A crystal-stabilized integrated-circuit oscillator which uses a filtered analog coupling to automatically disable the bias current to an auxiliary gain after startup. Positive feedback is used to ensure that the switchover is completed once it starts. Thus the device sizes and biases of the primary gain stage can be selected for very low-power operation, while assuring that the oscillator will always start-up whenever poser is valid.

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11 Claims

1. An integrated circuit crystal-stabilized oscillator, comprising:
- a primary gain stage, operatively connected in a feedback circuit which includes connection for an external crystal;
  
  an auxiliary gain stage, operatively connected in parallel with said primary gain stage;
  
  a capacitor, connected to receive a first current contribution which changes as the amplitude of oscillation of said auxiliary gain stage increases; and
  
  a supply current control stage which is operatively connected through a current mirror to cut off supply current to said auxiliary gain stage when said first current contribution has driven said capacitor past a voltage threshold.
- View Dependent Claims (2, 3, 4)
- - 2. The integrated circuit of claim 1, wherein said supply current control stage controls positive and negative currents supplied to said auxiliary gain stage.
  - 3. The integrated circuit of claim 1, wherein said auxiliary gain stage draws more than ten times as much current as said primary gain stage.
  - 4. The integrated circuit of claim 1, wherein said input connections of both said gain stages are directly connected together, and said output connections of both said gain stages are directly connected together.

5. An integrated circuit crystal-stabilized oscillator, comprising:
- a CMOS primary gain stage, having input and output connections operatively connected in a feedback circuit which includes connections for an external crystal;
  
  a CMOS auxiliary gain stage, having input and output connections operatively connected in parallel with said connections of said primary gain stage;
  
  a capacitor, which is operatively connected to said output connection of said primary gain stage;
  
  a first current generator which controllably provides a current determined by the voltage on said capacitor;
  
  a second current generator which provides a supply current, mirrored from said first current generator, to said auxiliary gain stage; and
  
  a positive feedback connection which accelerates turnoff of said second current generator.
- View Dependent Claims (6, 7, 8, 9)
- - 6. The integrated circuit of claim 5, wherein said positive feedback connection comprises a third current generator which provides a charging current, mirrored from said first current generator, to said capacitor.
  - 7. The integrated circuit of claim 5, wherein said input connections of both said gain stages are directly connected together, and said output connections of both said gain stages are directly connected together.
  - 8. The integrated circuit of claim 5, wherein said second current generator controllably supplies both positive and negative currents to said auxiliary gain stage.
  - 9. The integrated circuit of claim 5, wherein said auxiliary gain stage draws more than ten times as much current as said primary gain stage.

10. An oscillator operation method, comprising the steps of:
- operating a primary gain stage in parallel with an auxiliary gain stage, with a feedback circuit which includes connections for an external crystal;
  
  integrating, on a capacitor, a first current contribution which changes as the amplitude of oscillation of said auxiliary gain stage increases; and
  
  automatically cutting off supply current to said auxiliary gain stage, using a current mirror operatively connected to be controlled by the voltage on said capacitor.
- View Dependent Claims (11)
- - 11. The method of claim 10, wherein said automatically cutting off step is accelerated by a positive feedback connection.

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Current Assignee
Texas Instruments, Inc.
Original Assignee
Texas Instruments, Inc.
Inventors
Li, Jia, Tsay, Ching-Yuh
Primary Examiner(s)
MIS, DAVID C

Application Number

US09/031,636
Time in Patent Office

459 Days
Field of Search

331/116 R, 331/116 FE, 331/108 C, 331/158, 331/173, 331/183, 331/185, 331/186
US Class Current

331/116.0FE
CPC Class Codes

H03B 2200/0082   Lowering the supply voltage...

H03B 2200/0094   Measures to ensure starting...

H03B 5/06   Modifications of generator ...

H03B 5/36   active element in amplifier...

H03K 3/012   Modifications of generator ...

H03K 3/014   Modifications of generator ...

H03L 3/00   Starting of generators

Low power CMOS crystal oscillator circuit

First Claim

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Abstract

Citations

11 Claims

Specification

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Low power CMOS crystal oscillator circuit

First Claim

1 Assignment

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Abstract

Citations

11 Claims

Specification

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Solutions

Use Cases

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