Pressure control in respiratory treatment apparatus

The invention claimed is: 1. A method for controlling pressure in a respiratory treatment device supplying pressurized gas to a patient, the method comprising: preventing the pressure from being delivered above a first maximum pressure threshold; determining a delivered gas pressure being supplied to the patient with a sensor; and in a control circuit of the respiratory treatment device, comparing the delivered gas pressure to a second pressure threshold, the second pressure threshold lower than the first maximum pressure threshold, wherein if the delivered gas pressure equals or exceeds the second pressure threshold for more than a minimum period of time, the first maximum pressure threshold is reduced until the delivered gas pressure is below a third pressure threshold. 2. In a respiratory treatment apparatus, a pressure limit control method to prevent an over-pressure condition delivered by the respiratory treatment apparatus comprising: setting a pressure limit device to a first maximum pressure threshold; and setting the pressure limit device to change from the first maximum pressure threshold to a second maximum pressure threshold in response to a detection of a condition based on a third pressure threshold, wherein each maximum pressure threshold is applied to permit delivered pressure below its maximum with the pressure limit device, whereby an over-pressure condition delivered by a respiratory treatment apparatus may be prevented. 3. The control method of claim 2 wherein the detection of the condition comprises determining that a measure of pressure exceeds the third pressure threshold for a period of time. 4. The control method of claim 2 wherein the first maximum pressure threshold is greater than the second maximum pressure threshold. 5. The control method of claim 4 wherein the third pressure threshold is lower than the second maximum pressure threshold. 6. The control method of claim 5 wherein the third pressure threshold is adjusted if the third pressure threshold is exceeded for a period of time. 7. A pressure-limit control device to prevent an over-pressure condition of a respiratory treatment apparatus, the device comprising: a first comparator set to compare a measure of pressure with a maximum pressure threshold and to control a reduction in the measure of pressure if the measure of pressure exceeds the maximum pressure threshold; and a second comparator set to compare the measure of pressure with a second pressure threshold and to control reduction in the maximum pressure threshold if the measure of pressure exceeds the second pressure threshold for a period of time, wherein the maximum pressure threshold is reduced until the measure of pressure is equal to or below a third pressure threshold. 8. The device of claim 7 wherein the first comparator set controls a brake for a motor of a flow generator. 9. The device of claim 7 wherein the period of time comprises 4 seconds. 10. A pressure-limit control device of claim 7 further comprising a respiratory treatment apparatus, wherein the respiratory treatment apparatus comprises: a flow generator configured to produce a breathable gas for a patient at a pressure above atmospheric pressure; a controller configured to control the flow generator to produce the breathable gas according to a pressure therapy regime; and a pressure sensor to determine a measure of pressure associated with the pressure delivered by the flow generator. 11. An over-pressure detection device for a respiratory treatment apparatus comprising: a first detection circuit configured to detect a first over-pressure condition comprising a measure of pressure exceeding a first pressure threshold; a second detection circuit configured to detect a second over-pressure condition comprising a measure of pressure exceeding a second pressure threshold for a period of time represented by a first timing threshold, the second pressure threshold being lower than the first pressure threshold; and a control circuit configured to control a motor driver for a flow generator of a respiratory treatment apparatus in response to a detection signal from either one of the first detection circuit and the second detection circuit. 12. The over-pressure detection device of claim 11 wherein the first over-pressure condition of the first detection circuit further comprises the measure of pressure exceeding the first pressure threshold for a period of time represented by a second timing threshold, the period of time represented by the second timing threshold being shorter than the period of time represented by the first timing threshold. 13. The over-pressure detection device of claim 11 wherein the control circuit is configured to activate a brake for a motor of the flow generator. 14. The over-pressure detection device of claim 11 wherein the control circuit is configured to de-activate a motor of the flow generator. 15. The device of claim 11 , wherein the first pressure threshold is representative of a first pressure limit and wherein the device detects the exceeding of the first pressure threshold by a first time threshold, the first time threshold representing a first time limit; and wherein the second pressure threshold is representative of a second pressure limit and the device detects the exceeding of the second pressure threshold by a second time threshold, the second time threshold representing a second time limit; wherein the first and second pressure limits are different pressure limits and the first and second time limits are different time limits, and wherein a detection by either one of the first detection circuit and second detection circuit indicates an overpressure condition of the respiratory treatment apparatus. 16. The device of claim 15 further comprising a pressure sensor to generate a signal representative of the measure of pressure. 17. The device of claim 16 wherein the motor driver is coupled with the first detection circuit and second detection circuit and, wherein the motor driver is configured to shut down a motor based an output of the first detection circuit and second detection circuit. 18. The device of claim 17 further comprising a blower motor coupled to the motor driver. 19. The device of claim 17 further comprising a processor coupled to first circuit and second circuit, the processor configured to receive a detection signal from the first and second circuits, wherein the motor driver is configured to shut down a motor controlled by the processor independently of motor control processing of the processor. 20. The device of claim 15 further comprising a respiratory treatment apparatus, wherein the respiratory treatment apparatus comprises: a flow generator coupled with the over-pressure detection device wherein the over-pressure detection device is configured to limit operation of the flow generator based on a detection signal of the over-pressure detection device. 21. The device of claim 20 further comprising a pressure sensor coupled with the over-pressure detection device, the pressure sensor to generate a signal representative of a measure of pressure to the over-pressure detection device. 22. The device of claim 21 wherein the flow generator comprises a motor driver and wherein the motor driver is configured to shut down the flow generator based on an output signal of the over-pressure detection device. 23. The device of claim 22 further comprising a processor coupled with the flo