Electrostatic discharge noise suppression method and system for electronic devices

US 5,287,008 A
Filed: 05/10/1991
Issued: 02/15/1994
Est. Priority Date: 07/31/1990
Status: Expired due to Fees

First Claim

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1. An electrostatic discharge noise suppression system, comprising:

an electronic device and a power supply for the electronic device;

chassis means for receiving the power supply and the electronic device and for providing chassis ground;

the power supply being located at one portion of the chassis means and having a DC power supply voltage output of a first polarity and a DC power supply voltage return of an opposite second polarity;

the electronic device being located at another portion of the chassis means and having a DC voltage input of said first polarity and a DC voltage return of said opposite second polarity;

a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply and having a common core and first and second windings thereon, the first winding connecting the power supply DC voltage output to the electronic device DC voltage input and the second winding connecting the power supply DC voltage return to the electronic device DC voltage return; and

means for preventing saturation of said common core by minimizing a difference in magnitude between a DC supply current flowing from the power supply to the electronic device through the first winding and a DC return current flowing from the electronic device back to the power supply through the second winding by minimizing a DC ground return current from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said power supply opposite polarity DC voltage return from chassis ground at the location of the power supply.

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Abstract

An electrostatic discharge noise suppression method and system is disclosed for electronic devices, particularly those connected to data buses. Electrostatic discharge protection is provided by breaking high-frequency ground loops by inserting common mode inductors where they can be most effective-in the DC power supplies themselves, in the DC power connections, or just behind the DC connector in the electronic devices. Saturation of the cores of the common mode inductors is prevented in a preferred way by equalizing supply and return currents in the common mode inductors and by preventing DC ground currents from flowing in a chassis between the power supply and the electronic device.

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24 Claims

1. An electrostatic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having a DC power supply voltage output of a first polarity and a DC power supply voltage return of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having a DC voltage input of said first polarity and a DC voltage return of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply and having a common core and first and second windings thereon, the first winding connecting the power supply DC voltage output to the electronic device DC voltage input and the second winding connecting the power supply DC voltage return to the electronic device DC voltage return; and
  
  means for preventing saturation of said common core by minimizing a difference in magnitude between a DC supply current flowing from the power supply to the electronic device through the first winding and a DC return current flowing from the electronic device back to the power supply through the second winding by minimizing a DC ground return current from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said power supply opposite polarity DC voltage return from chassis ground at the location of the power supply.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A system according to claim 1 wherein said DC voltage return at the electronic device is directly DC electrically connected to the chassis ground at the location of the electronic device.
  - 3. A system according to claim 1 wherein said chassis means comprises a common chassis within which is located both the power supply and the electronic device.
  - 4. A system according to claim 1 wherein said chassis means comprises two separate chassis, one for the power supply and one for the electronic device.
  - 5. A system according to claim 4 wherein an electrical connection means for permitting ground currents to flow from the one chassis to the other is provided.
  - 6. A system according to claim 5 wherein said electrical connection means comprises a wire electrically connecting the one chassis to the other.
  - 7. A system according to claim 1 wherein the electronic device comprises at least one of a computer module or a computer peripheral module.
  - 8. A system according to claim 1 wherein the electronic device comprises a tape drive means for a computer.
  - 9. A system according to claim 1 wherein said common mode inductor means comprises a toroidal core.
  - 10. A system according to claim 1 wherein the two windings of the common mode inductor means are wound such that differential mode interference currents are attenuated.

11. An electrostatic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having a DC power supply voltage output of a first polarity and a DC power supply voltage return of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having a DC voltage input of said first polarity and a DC voltage return of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply and having a common core and first and second windings thereon, the first winding connecting the power supply DC voltage output to the electronic device DC voltage input and the second winding connecting the power supply DC voltage return to the electronic device DC voltage return; and
  
  means for preventing saturation of said common core by minimizing a difference in magnitude between a DC supply current flowing from the power supply to the electronic device through the first winding and a DC return current flowing from the electronic device back to the power supply through the second winding by minimizing a DC ground return current from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said electronic device DC voltage return from chassis ground at the location of the electronic device.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. A system according to claim 11 wherein the power supply DC voltage return is directly DC electrically connected to the chassis ground at the location of the power supply.
  - 13. A system according to claim 11 wherein the DC separating of said electronic device DC voltage return from chassis ground comprises a resistance between the DC voltage return and chassis ground at the location of the electronic device.
  - 14. A system according to claim 11 wherein said chassis means comprises a common chassis within which is located both the power supply and the electronic device.
  - 15. A system according to claim 11 wherein said chassis means comprises two separate chassis, one for the power supply and one for the electronic device.
  - 16. A system according to claim 15 wherein an electrical connection means for permitting ground currents to flow from the one chassis to the other is provided.
  - 17. A system according to claim 16 wherein said electrical connection means comprises a wire electrically connecting the one chassis to the other.
  - 18. A system according to claim 11 wherein the electronic device comprises at least one of a computer module or a computer peripheral module.
  - 19. A system according to claim 11 wherein the electronic device comprises a tape drive means for a computer.
  - 20. A system according to claim 11 wherein said common mode inductor means comprises a toroidal core.

21. An electronic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having first and second DC power supply voltage outputs of a first polarity and first and second DC power supply voltage returns of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having first and second DC voltage inputs of said first polarity and first and second DC voltage returns of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply comprising first and second common cores and first and second windings on each core, the first core first winding connecting the power supply first DC voltage output to the electronic device first DC voltage input, the first core second winding connecting the power supply first DC voltage return to the electronic device first DC voltage return, the second core first winding connecting the power supply second DC voltage output to the electronic device second DC voltage input, and the second core second winding connecting the power supply second DC voltage return to the electronic device second DC voltage return; and
  
  means for preventing saturation of said first and second common cores by minimizing a difference in magnitude between respective DC supply currents flowing from the power supply to the electronic device through the first windings of the first and second cores and respective DC return currents flowing from the electronic device back to the power supply through the second windings by minimizing DC ground return currents from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said power supply opposite polarity first and second DC voltage returns from chassis ground at the location of the power supply.

22. An electrostatic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having first and second DC power supply voltage outputs of a first polarity and first and second DC power supply voltage returns of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having first and second DC voltage inputs of said first polarity and first and second DC voltage returns of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply comprising first and second common cores and first and second windings on each core, the first core first winding connecting the power supply first DC voltage output to the electronic device first DC voltage input, the first core second winding connecting the power supply first DC voltage return to the electronic device first DC voltage return, the second core first winding connecting the power supply second DC voltage output to the electronic device second DC voltage input, and the second core second winding connecting the power supply second DC voltage return to the electronic device second DC voltage return; and
  
  means for preventing saturation of said first and second common cores by minimizing a difference in magnitude between respective DC supply currents flowing from the power supply to the electronic device through the first windings of the first and second cores and respective DC return currents flowing from the electronic device back to the power supply through the second windings of the first and second cores by minimizing DC ground return currents from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said electronic device first and second DC voltage returns from chassis ground at the location of the electronic device.

23. An electrostatic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having first and second DC power supply voltage outputs of a first polarity and first and second DC power supply voltage returns of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having first and second DC voltage inputs of said first polarity and first and second DC voltage returns of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply comprising a common core and first and second bifilar windings on the core, the first bifilar winding comprising a first winding connecting the power supply first DC voltage output to the electronic device first DC voltage input and a second winding connecting the power supply first DC voltage return to the electronic device first DC voltage return, the second bifilar winding comprising a first winding connecting the power supply second DC voltage output to the electronic device second DC voltage input and a second winding connecting the power supply second DC voltage return to the electronic device second DC voltage return; and
  
  means for preventing saturation of said first and second common cores by minimizing a difference in magnitude between respective DC supply currents flowing from the power supply to the electronic device through the first windings of the first and second bifilar windings and respective DC return currents flowing from the electronic device back to the power supply through the second windings by minimizing the first and second DC ground return currents from flowing via chassis ground from said electronic device back to said power supply, said means for preventing saturation DC separating said power supply opposite polarity first and second DC voltage returns from chassis ground at the location of the power supply.

24. An electrostatic discharge noise suppression system, comprising:
- an electronic device and a power supply for the electronic device;
  
  chassis means for receiving the power supply and the electronic device and for providing chassis ground;
  
  the power supply being located at one portion of the chassis means and having first and second DC power supply voltage outputs of a first polarity and first and second DC power supply voltage returns of an opposite second polarity;
  
  the electronic device being located at another portion of the chassis means and having first and second DC voltage inputs of said first polarity and first and second DC voltage returns of said opposite second polarity;
  
  a common mode inductor means for suppressing electrostatic discharge noise emanating from the power supply comprising a common core and first and second bifilar windings on the core, the first bifilar winding comprising a first winding connecting the power supply first DC voltage output to the electronic device first DC voltage input, and a second winding connecting the power supply first DC voltage return to the electronic device first DC voltage return, the second bifilar winding comprising a first winding connecting the power supply second DC voltage output to the electronic device second DC voltage input and a second winding connecting the power supply second DC voltage return to the electronic device second DC voltage return; and
  
  means for preventing saturation of said common core by minimizing a difference in magnitude between respective DC supply currents flowing from the power supply to the electronic device through the first windings of the first and second bifilar windings and respective DC return currents flowing from the electronic device back to the power supply through the second windings of the first and second bifilar windings by minimizing DC ground return currents from flowing via chassis ground from said electronic device to said power supply, said means for preventing saturation DC separating said electronic device first and second DC voltage returns from chassis ground at the location of the electronic device.

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Current Assignee
Hewlett-Packard Development Company, L.P. (HP Inc.)
Original Assignee
Tandberg Data Corporation
Inventors
Pahr, Per O.
Primary Examiner(s)
Pellinen, A. D.
Assistant Examiner(s)
Fleming, Fritz M.

Application Number

US07/698,099
Time in Patent Office

1,012 Days
Field of Search

361/58, 361/111, 361/212, 361/220, 361/424, 307/89, 307/91, 363/47, 333/12, 333/181
US Class Current

307/91
CPC Class Codes

H02H 9/005 avoiding undesired transien...

Electrostatic discharge noise suppression method and system for electronic devices

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

50 Citations

24 Claims

Specification

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Electrostatic discharge noise suppression method and system for electronic devices

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

50 Citations

24 Claims

Specification

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Use Cases

Quick Links

Others