Claims
- 1. A dual loop regulator circuit configured for providing a regulated load voltage, said dual loop regulator comprising:
a primary voltage regulator configured within a linear loop for regulating the load voltage; a dynamic load configured for receiving the regulated load voltage; and a secondary voltage regulator configured within a non-linear loop for regulating the load voltage, said secondary voltage regulator comprising:
at least one comparator configured for determining one of an undervoltage and an overvoltage condition at said dynamic load; and at least one current source coupled between said at least one comparator and said dynamic load, said at least one current source configured for regulating load current in said dynamic load when one of said undervoltage and said overvoltage condition at said dynamic load is present.
- 2. The dual loop regulator circuit according to claim 1, wherein said secondary voltage regulator comprises a first comparator, a second comparator, a first current source and a second current source, said first comparator being configured for detecting said undervoltage condition and for providing a first output signal to said first current source to facilitate sourcing of current to said dynamic load, and said second comparator being configured for detecting said overvoltage condition and for providing a second output signal to said second current source to facilitate sinking of current from said dynamic load.
- 3. The dual loop regulator circuit according to claim 1, wherein said at least one current source comprises a transistor device having a control terminal coupled to an output terminal of said at least one comparator.
- 4. The dual loop regulator circuit according to claim 1, wherein said dual loop regulator circuit further comprises a bypass capacitor coupled in parallel with said dynamic load and configured for filtering dynamic currents.
- 5. The dual loop regulator circuit according to claim 2, wherein said undervoltage condition comprises a decrease in the load voltage by more than an undervoltage limit and said overvoltage condition comprises an increase in the load voltage by more than an overvoltage limit, said undervoltage limit and said overvoltage limit defining a dead-zone region in between, said dead-zone region configured for operation only by said primary voltage regulator.
- 6. The dual loop regulator circuit according to claim 5, wherein said undervoltage limit and said overvoltage limit are configured in an asymmetrical manner.
- 7. The dual loop regulator circuit according to claim 1, wherein said secondary voltage regulator is configured for magnitude control by turning on said at least one current source based on an amount of voltage in excess of one of said overvoltage condition and said undervoltage condition.
- 8. The dual loop regulator circuit according to claim 1, wherein said dual loop regulator further comprises a dampening circuit for limiting an amount of charge for supplying current to said dynamic load, said dampening circuit comprises a resistor coupled between said at least one current source and an upper supply voltage, and a store capacitor coupled between said at least one current source and a lower supply voltage.
- 9. The dual loop regulator circuit according to claim 1, wherein said dual loop regulator further comprises a plurality of secondary voltage regulator circuits, each of said plurality of secondary voltage regulator circuits comprising a first comparator, a second comparator, a first current source and a second current source, said first comparator being configured for detecting said undervoltage condition and for providing a first output signal to said first current source to facilitate sourcing of current to said dynamic load, and said second comparator being configured for detecting said overvoltage condition and for providing a second output signal to said second current source to facilitate sinking of current from said dynamic load.
- 10. The dual loop regulator circuit according to claim 9, wherein each of said plurality of secondary voltage regulator circuits comprises an undervoltage limit and an overvoltage limit different than that of any other of said plurality of secondary voltage regulator circuits.
- 11. The dual loop regulator circuit according to claim 10, wherein said plurality of secondary voltage regulator circuits is configured to provide a combined multi-step transfer function.
- 12. A dual loop regulator for providing a regulated load voltage to a dynamic load, said dual loop regulator comprising:
a primary voltage regulator configured for receiving an upper supply voltage and regulating the load voltage, said primary voltage regulator configured within a linear loop; and a secondary voltage regulator configured for regulating the load voltage through magnitude control upon detecting at least one of an undervoltage condition and an overvoltage condition, said secondary voltage regulator configured within a non-linear, wideband loop for providing a faster response than said linear loop.
- 13. The dual loop regulator according to claim 12, wherein said dual loop regulator further comprises a bypass capacitor coupled between an output terminal of said primary voltage regulator and a lower supply voltage, said bypass capacitor configured for filtering dynamic currents.
- 14. The dual loop regulator according to claim 12, wherein said primary voltage regulator comprises a switching regulator.
- 15. The dual loop regulator according to claim 12, wherein said secondary voltage regulator comprises:
a first comparator configured for detecting said overvoltage condition; a first current source coupled to said first comparator and configured for sinking current from the dynamic load when said overvoltage condition exists; a second comparator configured for detecting said undervoltage condition; and a second current source coupled to said second comparator and configured for sourcing current to the dynamic load when said undervoltage condition exists.
- 16. The dual loop regulator according to claim 12, wherein said dual loop regulator further comprises a circuit for limiting an amount of charge for supplying current to the dynamic load, said circuit comprises a resistor coupled between said at least one current source and an upper supply voltage, and a store capacitor coupled between said at least one current source and a lower supply voltage.
- 17. The dual loop regulator according to claim 12, wherein said dual loop regulator further comprises a plurality of secondary voltage regulator circuits, each of said plurality of secondary voltage regulator circuits comprising a first comparator, a second comparator, a first current source and a second current source, said first comparator being configured for detecting said undervoltage condition and for providing a first output signal to said first current source to facilitate sourcing of current to the dynamic load, and said second comparator being configured for detecting said overvoltage condition and for providing a second output signal to said second current source to facilitate sinking of current from the dynamic load.
- 18. The dual loop regulator according to claim 12, wherein said dual loop regulator further comprises a sensing circuit for sensing load current flowing to the dynamic load device.
- 19. The dual loop regulator according to claim 12, wherein said undervoltage condition comprises a decrease in the load voltage by more than an undervoltage limit and said overvoltage condition comprises an increase in the load voltage by more than an overvoltage limit, said undervoltage limit and said overvoltage limit defining a dead-zone region in between, said dead-zone region configured for operation only by said primary voltage regulator.
- 20. The dual loop regulator according to claim 19, wherein said undervoltage limit and said overvoltage limit are configured in an asymmetrical manner.
- 21. A method for regulating a load voltage for a dynamic load, said method comprising the steps of:
providing regulation of the load device with a primary voltage regulator when the load voltage is within an undervoltage limit and an overvoltage limit of a reference voltage; sinking current to the dynamic load from a secondary voltage regulator when said load voltage is greater than said reference voltage by said overvoltage limit; and sourcing current from the dynamic load from said secondary voltage regulator when said load voltage is less than said reference voltage by said undervoltage limit.
- 22. The method according to claim 21, wherein said method further comprises the step of providing a finite amount of charge for supplying current to the dynamic load.
- 23. The method according to claim 21, wherein said step of sinking current comprises sinking current from a plurality of current sources when said load voltage is greater than said reference voltage by a plurality of overvoltage limits.
- 24. The method according to claim 21, wherein said step of sourcing current comprises sourcing current from a plurality of current sources when said load voltage is less than said reference voltage by a plurality of undervoltage limits.
- 25. The method according to claim 21, wherein said method further comprises the step of dampening an amount of current provided to the load device during one of said sourcing and sinking steps through limiting charge storage to facilitate increased stability.
- 26. The method according to claim 21, wherein said step of providing regulation of the load device with said primary voltage regulator comprises regulating within a linear loop, and said steps of sinking and sourcing current comprise regulating within a non-linear, wideband loop.
- 27. A voltage regulator circuit for providing a regulated load voltage, said voltage regulator circuit comprising:
a primary voltage regulator for regulating the load voltage; a load device configured for receiving the regulated load voltage; and a secondary voltage regulator configured for regulating the load voltage when said load voltage exceeds an overvoltage limit through sinking of current from said load device, and when said load voltage is less than an undervoltage limit through sourcing of current to said load device.
- 28. The voltage regulator circuit according to claim 27, wherein said secondary voltage regulator comprises:
a first comparator configured for detecting when said load voltage exceeds said overvoltage limit; a first current source coupled to said first comparator and configured for sinking current from said load device once said load voltage exceeds said overvoltage limit; a second comparator configured for detecting when said load voltage is less than said undervoltage limit; and a second current source coupled to said second comparator and configured for sourcing current to the load device when said load voltage is less than said undervoltage limit.
- 29. The voltage regulator according to claim 27, wherein said voltage regulator further comprises a resistor and a capacitor configured for facilitating a finite charge storage in said voltage regulator for increased stability.
- 30. The voltage regulator according to claim 27, wherein said primary voltage regulator is configured within a linear loop, and said secondary voltage regulator is configured within a non-linear loop.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority from prior pending U.S. Provisional Application Serial No. 60/277,496, entitled “Dual Loop Regulator Using A Nonlinear Wide-Band Loop,” filed Mar. 21, 2001; this application also claims priority from pending U.S. application Ser. No. 09/945,187, entitled, “Apparatus and System for Providing Transient Suppression Power Regulation”, filed on Aug. 31, 2001, and hereby incorporated herein by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60277496 |
Mar 2001 |
US |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09945187 |
Aug 2001 |
US |
Child |
10104199 |
Mar 2002 |
US |