Environmental control system

The invention claimed is: 1. An environmental control system, comprising: equipment to generate an environmental control effect; a damper associated with a zone to control a portion of the environmental control effect permitted to affect the zone by assuming one of various damper positions; and a capacity controller operably coupled to the equipment and the damper to control operation of the equipment and to adjust the damper to assume the one of the various damper positions in accordance with an anti-windup structure and based on a demand and a noise limit of the zone and an equipment capacity limit, the anti-windup structure being configured to: multiply and divide an available capacity output from the equipment by a portion of total zone demand for each zone and a desired capacity, respectively, to obtain a first result, subtract a zone demand representation of a difference between a set point and an actual temperature from the first result to obtain a second result, and feed the second result into a PI controller with a control algorithm for controlling the equipment and the damper. 2. The environmental control system according to claim 1 , wherein the capacity controller further controls the operation of the equipment and adjusts the damper to assume the one of the various damper positions based on a noise limit of the zone. 3. The environmental control system according to claim 2 , wherein the noise limit of the zone refers to noise produced by air flow into the zone and is defined as an amount of air flow to be permitted to flow into the zone via the damper. 4. The environmental control system according to claim 1 , wherein the equipment comprises a coil, a blower and one or more of a heat pump, a furnace and an electrical heater operable in a cooling mode or a heating mode. 5. The environmental control system according to claim 4 , wherein the capacity controller controls an operational speed of the blower. 6. The environmental control system according to claim 4 , wherein the capacity controller actuates an individual stage of the equipment discretely through a duty cycle. 7. The environmental control system according to claim 4 , wherein the capacity controller employs variable speed actuation of the equipment. 8. The environmental control system according to claim 1 , further comprising a sensor operably disposed in the zone to determine an environmental condition therein, wherein the demand of the zone is defined in accordance with the determined environmental condition therein and a predefined environmental condition set point. 9. A multi-zone environmental control system, comprising: equipment to generate an environmental control effect; a plurality of dampers respectively associated with a plurality of zones to each control a portion of the environmental control effect permitted to affect the corresponding one of the plurality of zones by assuming corresponding ones of various damper positions; and a capacity controller operably coupled to the equipment and the plurality of dampers to control operation of the equipment, the capacity controller including a plurality of zone controllers to adjust each of the dampers to assume the corresponding ones of the various damper positions in accordance with an anti-windup structure and based on a demand and a noise limit of the corresponding one of the plurality of zones and equipment capacity limits, the anti-windup structure being configured to: multiply and divide an available capacity output from the equipment by a portion of total zone demand for each zone and a desired capacity, respectively, to obtain a first result, subtract a zone demand representation of a difference between a set point and an actual temperature of each zone from the first result to obtain a second result, and feed the second result into a PI controller with a control algorithm for controlling the equipment and each of the dampers. 10. The multi-zone environmental control system according to claim 9 , wherein the capacity controller further controls the operation of the equipment and adjusts each of the dampers to assume the corresponding ones of the various damper positions based on a noise limit of each of the corresponding one of the plurality of zones. 11. The multi-zone environmental control system according to claim 10 , wherein the noise limit of the corresponding one of the plurality of zones refers to noise produced by air flow into the corresponding one of the plurality of zones and is defined as an amount of air flow to be permitted to flow into each of the corresponding one of the plurality of zones via the corresponding damper. 12. The multi-zone environmental control system according to claim 9 , wherein the plurality of zones is defined as two or more zones and the plurality of dampers comprises two or more dampers, one in each of the two or more zones. 13. The multi-zone environmental control system according to claim 9 , wherein the equipment comprises a coil, a blower and one or more of a heat pump, a furnace and an electrical heater operable in a cooling mode or a heating mode. 14. The multi-zone environmental control system according to claim 13 , wherein the capacity controller controls an operational speed of the blower. 15. The multi-zone environmental control system according to claim 13 , wherein the capacity controller actuates an individual stage of the equipment discretely through a duty cycle. 16. The multi-zone environmental control system according to claim 13 , wherein the capacity controller employs variable speed actuation of the equipment. 17. The multi-zone environmental control system according to claim 9 , further comprising sensors operably disposed in each of the plurality of zones to determine respective environmental conditions therein. 18. The multi-zone environmental control system according to claim 17 , wherein the demand of the corresponding one of the plurality of zones is defined in accordance with the determined respective environmental conditions therein and respective predefined environmental condition set points.