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The present invention relates to methods and systems for monitoring of one or more machines or devices, such as washers and dryers, for a change of state and indicating when the change of state has occurred. In one aspect, the system comprises a monitor and alert unit which generates a signal indica

The present invention relates to methods and systems for monitoring of one or more machines or devices, such as washers and dryers, for a change of state and indicating when the change of state has occurred. In one aspect, the system comprises a monitor and alert unit which generates a signal indicative of the change of the state of the machine or device being monitored and a device or system to produce an alert notification based upon the signal. The monitor and alert unit includes an operational state sensor, a signal conditioner, and a comparator.

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1. A machine or device monitoring system, comprising: a monitor and alert unit configured to monitor a machine or device and produce an alert notification upon detection of a change of state, the monitor and alert unit comprising: an operational state sensor, the operational state sensor generates s

1. A machine or device monitoring system, comprising: a monitor and alert unit configured to monitor a machine or device and produce an alert notification upon detection of a change of state, the monitor and alert unit comprising: an operational state sensor, the operational state sensor generates signals based upon the change of state of the machine or device;a signal conditioner, the signal conditioner receives and modifies signals generated by the operational state sensor; anda comparator, the comparator compares amplitude of the modified signals with a predetermined amplitude trip point, the comparator generates a signal once the amplitude of the modified signal crosses the predetermined amplitude trip point for a predetermined time period to indicate the change of state of the machine or device being monitored; anda device or system to produce an alert notification based upon the signal generated by the comparator and generate a signal indicative of the change of the state of the machine or device being monitored. 2. The monitoring system of claim 1, wherein the device or system to produce the notification upon the detection of the change of state is a visual indicator. 3. The monitoring system of claim 1, wherein the device or system to produce the notification upon the detection of the change of state is an audio indicator. 4. The monitoring system of claim 1, wherein the device or system to produce the notification upon the detection of the change of state is a wireless RF transmitter broadcasting a wireless signal to a portable receiver and alert unit configured to receive signals generated by the wireless transmitter and generate a signal indicative of the change of state of the machine or device. 5. The monitoring system of claim 1, wherein the change of state is a power-up transition state. 6. The monitoring system of claim 5, wherein an alert notification is produced when a change of state is detected and the new state is maintained for a pre-determined time period. 7. The monitoring system of claim 1, wherein the change of state is a power-down transition state. 8. The monitoring system of claim 7, wherein an alert notification is produced when a change of state is detected and the new state is maintained for a pre-determined time period. 9. The monitoring system of claim 1, wherein the change of state is from a power-on steady state. 10. The monitoring system of claim 1, wherein the operational state sensor is an electromagnetic field sensor. 11. The monitoring system of claim 10, wherein the electromagnetic field sensor can be placed in proximity of the machine or device without being attached to it. 12. The monitoring system of claim 1, wherein the alert unit comprises a selector switch configured to enable selection of power-up transition state detection, power-down transition state detection, power-on steady state detection, or some combination thereof. 13. The monitoring system of claim 1, wherein the signal indicative of the change of state of the machine or device is a visual alert, audio alert, wireless RF alert, or some combination thereof. 14. The monitoring system of claim 1, wherein the signal indicative of the change of state of the machine or device is a single pulse alert, continuous alert, or repetitive on and off alert. 15. The monitoring system of claim 1, further comprising a sensitivity selection switch and circuitry configured to cause the amplitude of the signals generated by the signal conditioner to be greater than the predetermined amplitude trip point when the machine or device being monitored is in operation. 16. The monitoring system of claim 15, wherein the sensitivity selection switch and circuitry is further configured to adjust the amplitude of the signals generated by the signal conditioner, adjust the predetermined amplitude trip point, or both. 17. The monitoring system of claim 1, wherein the modified signals generated by the signal conditioner includes a moving average amplitude that is greater than the predetermined amplitude trip point when the machine or device being monitored is in operation. 18. The monitoring system of claim 17, wherein the signal conditioner includes a limiter for limiting amplitude. 19. The monitoring system of claim 17, wherein the signal conditioner includes a rectifier and a low pass filter. 20. The monitoring system of claim 1, wherein the operational state sensor senses velocity or acceleration along multiple axes and generates signals indicative of said velocity or acceleration for each of said multiple axes. 21. The monitoring system of claim 20, wherein the signal conditioner includes a signal combining circuit that sums the signals generated by the operational state sensor. 22. The monitoring system of claim 21, wherein the signal combining circuit further determines a square root of the sum of the squares of the signals generated by the operational state sensor. 23. The monitoring system of claim 1, wherein the operational state sensor comprises a vibration sensor. 24. The monitoring system of claim 1, wherein the operational state sensor comprises a velocity sensor. 25. The monitoring system of claim 1, wherein the operational state sensor comprises an accelerometer sensor. 26. The monitoring system of claim 25, wherein the accelerometer sensor generates signals indicative of acceleration along three axes. 27. The monitoring system of claim 1, wherein the operational state sensor comprises an audio sensor. 28. The monitoring system of claim 27, wherein the audio sensor can be placed in proximity of the machine or device without being attached to it. 29. The monitoring system of claim 1, wherein the operational state sensor comprises a magnetic field sensor. 30. The monitoring system of claim 29, wherein the magnetic field sensor can be placed in proximity of the machine or device without being attached to it. 31. The monitoring system of claim 29, wherein the magnetic field sensor is disposed about a power cord of a machine or device. 32. A method of monitoring a change of state of a machine or device, comprising the steps of: connecting an operational state sensor to a machine or device, wherein the operational state sensor generates signals based upon change of states of the machine or device;conditioning the signals generated by the operational state sensor to form a moving average amplitude that is greater than an amplitude setting of a predetermined amplitude trip point when the machine or device is in operation;monitoring time periods after the moving average amplitude crosses the amplitude setting of the predetermined amplitude trip point to indicate the change of state of the machine or device being monitored, wherein an alert notification is produced when a change of state is detected and the new state is maintained for a pre-determined time period. 33. The method of claim 32, wherein the device or system to produce the notification upon the detection of the change of state is a visual indicator. 34. The method of claim 32, wherein the device or system to produce the notification upon the detection of the change of state is an audio indicator. 35. The method of claim 32, wherein the device or system to produce the notification upon the detection of the change of state is a wireless transmitter broadcasting a wireless signal to a portable receiver and alert unit configured to receive signals generated by the wireless transmitter and generate a signal indicative of the change of state of the machine or device. 36. The method of claim 32, further comprising the step of adjusting the amplitude of the average amplitude, adjusting the amplitude of the predetermined amplitude trip point, or both. 37. A machine or device monitoring system, comprising: a monitor and alert unit configured to monitor a machine or device and produce an alert notification upon detection of a change of state, the monitor and alert unit comprising: an operational state sensor, wherein the operational state sensor generates signals based upon the change of state of the machine or device;a signal conditioner, wherein the signal conditioner receives and modifies signals generated by the operational state sensor;a comparator, the comparator compares amplitude of the modified signals with a predetermined amplitude trip point, the comparator generates a signal once the amplitude of the modified signal crosses the predetermined amplitude trip point for a predetermined time period to indicate the change of state of the machine or device being monitored; andan output. 38. The system of claim 37, wherein the output is a telephone interface output. 39. The system of claim 37, wherein the output is an electrical signal output circuit.