Method and apparatus for sequencing multistage systems of known relative capacities
First Claim
1. A method for controlling a multistage control system and for providing transitions between stage combinations, wherein the multistage system comprises a plurality of stages, each of the stages has a defined capacity, and at least one of the stages is individually controllable via pulsing or modulation, the method comprising the following steps:
- ordering a plurality of stage combinations in order of capacity, each stage combination including a stage which can be individually controlled to provide a requested capacity between successive stage combinations;
determining a plurality of transition points, the transition points being defined as a capacity level at which a change in stage combination is required to provide a requested capacity;
defining a deadzone around each transition point;
receiving a main control signal, and using the main control signal to determine a stage combination to provide a requested output capacity;
selecting a new stage combination when the main control signal exceeds the transition point plus the deadzone;
maintaining the current stage combination and saturating a modulatable stage when the main control signal is in a deadzone.
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Abstract
Disclosed is a method and apparatus for controlling multistage systems where the relative capacities (process gains) of each stage are known. The method uses a split-range control concept in order to control multiple stages with a single feedback controller, such as PID. Stage combinations are generated automatically and sequenced to provide contiguous control and optimum control resolution across the overall range of the multistage system. The control method incorporates hysteretic deadzones to improve robustness around stage transition points. The assumption of a tuned PI feedback controller allows the size of the deadzone to be related to general control performance requirements applicable across classes of similar systems. A simulated HVAC&R system is used to evaluate the method and it is compared an alternative approach.
121 Citations
21 Claims
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1. A method for controlling a multistage control system and for providing transitions between stage combinations, wherein the multistage system comprises a plurality of stages, each of the stages has a defined capacity, and at least one of the stages is individually controllable via pulsing or modulation, the method comprising the following steps:
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ordering a plurality of stage combinations in order of capacity, each stage combination including a stage which can be individually controlled to provide a requested capacity between successive stage combinations;
determining a plurality of transition points, the transition points being defined as a capacity level at which a change in stage combination is required to provide a requested capacity;
defining a deadzone around each transition point;
receiving a main control signal, and using the main control signal to determine a stage combination to provide a requested output capacity;
selecting a new stage combination when the main control signal exceeds the transition point plus the deadzone;
maintaining the current stage combination and saturating a modulatable stage when the main control signal is in a deadzone. - View Dependent Claims (2, 3, 4, 16, 17)
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5. A method for automatically ordering a plurality of stages in a multistage control system to provide contiguous capacity control between a minimum and a maximum level, the method comprising the following steps:
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determining the capacity of each of the plurality of stages;
determining which of the plurality of stages are individually controllable;
establishing a first stage combination, wherein all stages are off and an individually controllable stage is designated for modulation; and
selecting each successive stage combination to have a minimum capacity equivalent to or less than the maximum capacity of the previous stage combination and to have an individually controllable stage to provide contiguous capacity to the minimum capacity of the next successive stage. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. A method for controlling a multistage system comprising a plurality of stages, wherein each of the stages has a defined capacity, and at least one of the stages is individually controllable via pulsing or modulation, the method comprising the following steps:
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obtaining input data from a user indicating the number, type and capacity of each stage in a multistage system;
automatically ordering a matrix of stage combinations from a first stage combination providing a minimum capacity to a last stage combination providing a maximum capacity, each stage combination having at least one inactive stage that is individually controlled to provide contiguous capacity output control between successive stages;
periodically monitoring an input main control signal;
calculating a requested output capacity based on the input main control signal;
determining a stage combination selected to provide the selected output;
compare the stage combination to a previous stage combination, and if the stage combination is not equivalent to the previous stage combination, determining whether the requested output capacity exceeds a predetermined deadzone; and
if the deadzone has not been exceeded, saturating the output of the previous stage;
if the deadzone is exceeded, switching to the selected stage and calculating a split range control signal for controlling the selected stage to provide the selected output capacity. - View Dependent Claims (13, 14, 15)
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18. A multistage system comprising:
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a plurality of stages for controlling an HVAC system, the plurality of stages including at least one individually controllable stage;
a programmable controller, the programmable controller being coupled to each of the stages, the programmable controller being programmed to;
receive a setpoint;
determine which of the stages should be activated based on the requested setpoint;
calculate a split range signal, the split range signal being used to command the one individually controllable stage to provide the requested output;
determine whether the main control signal is in a predefined deadzone and saturating the split range signal if the main control signal is in the deadzone. - View Dependent Claims (19, 20, 21)
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Specification