Patent Number: 
Section: claims

1. A method of determining a status for a plasma processing system comprising:executing a process in said plasma processing system;monitoring a pressure control system, coupled to said plasma processing system, configured to control the pressure of said process in said plasma processing system; anddetermining at least one of a fault condition, an erroneous fault condition, or a service condition for said plasma processing system from said monitoring,wherein said determining said erroneous fault condition includes monitoring a first parameter associated with said pressure control system, and correlating an insubstantial change in said first parameter with a substantial change in a second parameter associated with a gas injection system coupled to said plasma processing system and configured to introduce a process gas to said plasma processing system,wherein said first parameter includes a position of a valve, a change in said position of said valve, or a rate of change in said position of said valve, or any combination of two or more thereof,wherein said second parameter includes a flow rate of said process gas into said plasma processing system, a change of said flow rate, or a rate of change of said flow rate, or any combination of two or more thereof,wherein said insubstantial change in said first parameter is determined by setting a threshold for an acceptable change to said first parameter and observing a monitored change in said first parameter that is less than said threshold for acceptable change to said first parameter, andwherein said substantial change in said second parameter is determined by setting a threshold for an acceptable change to said second parameter and observing a monitored change in said second parameter that is greater than said threshold for acceptable change to said second parameter. 2. The method of claim 1, wherein said monitoring said position of said valve includes monitoring a valve angle of said valve. 3. The method of claim 2, wherein said process comprises an etch process. 4. The method of claim 2, wherein said valve is selected from a group comprising a gate valve, a swing gate valve, and a butterfly valve. 5. The method of claim 2, wherein determining said fault condition occurs when at least one of said change in said position of said valve or said rate of change of said position of said valve exceeds a pre-determined threshold. 6. The method of claim 2, wherein said monitoring said pressure control system includes monitoring a pumping system. 7. A plasma processing system comprising:a process chamber;a plasma source coupled to said process chamber and configured to form a plasma in said process chamber from a process gas;a substrate holder disposed within said process chamber and configured to support a substrate;a gas injection system coupled to said process chamber and configured to introduce said process gas;a pressure control system coupled to said process chamber and configured to control a pressure in said process chamber; anda controller coupled to said plasma processing system and configured to monitor said pressure control system and determine at least one of a fault condition, an erroneous fault condition, or a service condition for said plasma processing system, wherein said controller monitors a position of a valve and a valve angle of said valve, andwherein said controller is configured to determine said erroneous fault condition by monitoring a first parameter associated with said pressure control system, and correlating an insubstantial change in said first parameter with a substantial change in a second parameter associated with said gas injection system,wherein said first parameter includes said position of said valve, said valve angle of said valve, a change in said position of said valve, a change in said valve angle of said valve, a rate of change in said position of said valve, or a rate of change in said valve angle of said valve, or any combination of two or more thereof,wherein said second parameter includes a flow rate of said process gas into said plasma processing system, a change of said flow rate, or a rate of change of said flow rate, or any combination of two or more thereof,wherein said insubstantial change in said first parameter is determined by setting a threshold for an acceptable change to said first parameter and observing a monitored change in said first parameter that is less than said threshold for acceptable change to said first parameter, andwherein said substantial change in said second parameter is determined by setting a threshold for an acceptable change to said second parameter and observing a monitored change in said second parameter that is greater than said threshold for acceptable change to said second parameter. 8. The plasma processing system of claim 7, wherein said valve is selected from a group comprising a gate valve, a swing gate valve, and a butterfly valve. 9. The plasma processing system of claim 7, wherein said fault condition occurs when at least one of said change in said position of said valve, said change in said valve angle of said valve, said rate of change in said valve angle of said valve, or said rate of change of said position of said valve exceeds a pre-determined threshold.