Shredder with vibration performance sensor and control system

We claim: 1. An auto-feed paper shredder comprising: an input bin configured to hold a stack of paper to be shredded; a shredding mechanism including an electrically powered motor and interleaving cutter elements, the motor being operable to drive the cutter elements so that the cutter elements shred the paper fed to the shredding mechanism; an auto-feed mechanism configured to automatically feed paper from the input bin to the shredding mechanism; and a control system comprising a sensor configured to detect vibrations generated by operation of the shredder, and a controller coupled to the sensor and auto-feed mechanism, the controller being configured to regulate operation of the auto-feed mechanism in response to the detected vibrations having a predetermined characteristic. 2. The shredder of claim 1 , wherein in response to the detected vibrations exceeding a predetermined vibration level, the controller is configured to regulate operation of the auto-feed mechanism so as to reduce vibrations generated by operation of the shredder while continuing to operate the motor. 3. The shredder of claim 2 , further comprising a user input that enables a user to change the predetermined vibration level. 4. The shredder of claim 1 , wherein the controller is configured to cause the auto-feed mechanism to perform an autocorrect operation in response to the detected vibrations indicating that paper is not being fed from the input bin to the shredding mechanism. 5. The shredder of claim 4 , wherein the autocorrect operation comprises running the auto-feed mechanism in reverse and then running the auto-feed mechanism in forward to automatically feed paper from the input bin to the shredding mechanism. 6. The shredder of claim 4 , wherein: the controller is configured to determine if the autocorrect operation failed; and the controller is configured to turn the shredder off in response to determining that the autocorrect operation failed. 7. The shredder of claim 6 , wherein the controller is configured to issue an error message in response to determining that the autocorrect operation failed. 8. The shredder of claim 1 , wherein the auto-feed mechanism comprises a rolling drum and vacuum mechanism that are configured to automatically and repeatedly feed paper from the input bin to the shredding mechanism. 9. The shredder of claim 8 , wherein the controller is configured to run the rolling drum in reverse in response to the detected vibrations indicating that paper is not being fed from the input bin to the shredding mechanism. 10. The shredder of claim 8 , wherein the controller is configured to turn the vacuum mechanism off and on in response to the detected vibrations indicating that paper is not being fed from the input bin to the shredding mechanism. 11. The shredder of claim 1 , wherein the controller is configured to run the auto-feed mechanism in reverse in response to the detected vibrations having the predetermined characteristic. 12. The shredder of claim 1 , wherein the controller is configured to run the auto-feed mechanism in reverse in response to the detected vibrations falling below a predetermined threshold. 13. The shredder of claim 1 , wherein the controller is configured to run the auto-feed mechanism in reverse in response to the detected vibrations indicating that paper is not being fed into the shredding mechanism. 14. The shredder of claim 1 , wherein the sensor is configured to detect vibrations generated by the auto-feed mechanism. 15. The shredder of claim 1 , wherein the controller is configured to adjust the speed of the auto-feed mechanism in response to the detected vibrations having the predetermined characteristic. 16. A method of using an auto-feed paper shredder that includes an input bin configured to hold a stack of paper to be shredded, a shredding mechanism including an electrically powered motor and interleaving cutter elements, the motor being operable to drive the cutter elements so that the cutter elements shred the paper fed to the shredding mechanism, an auto-feed mechanism configured to automatically feed paper from the input bin to the shredding mechanism, a vibration sensor configured to detect vibrations generated by operation of the shredder, and a controller coupled to the sensor and auto-feed mechanism, the method comprising: detecting, via the vibration sensor, vibrations generated by operation of the shredder during operation of the shredder; and automatically regulating, via the controller, operation of the auto-feed mechanism in response to the detected vibrations having a predetermined characteristic. 17. The method of claim 16 , further comprising: in response to the detected vibrations exceeding a predetermined vibration level, regulating, via the controller, operation of the auto-feed mechanism so as to reduce vibrations generated by operation of the shredder while continuing to operate the motor. 18. The method of claim 16 , further comprising automatically performing an autocorrect operation in response to the detected vibrations indicating that paper is not being fed from the input bin to the shredding mechanism. 19. The method of claim 16 , wherein: the auto-feed mechanism comprises a rolling drum and vacuum mechanism that are configured to automatically and repeatedly feed paper from the input bin to the shredding mechanism, and the method further comprises automatically running the rolling drum in reverse in response to the detected vibrations indicating that paper is not being fed from the input bin to the shredding mechanism. 20. The method of claim 16 , further comprising automatically running the auto-feed mechanism in reverse in response to the detected vibrations falling below a predetermined threshold.