System and method for controlling the operation of an outdoor air conditioner

What is claimed is: 1. A method of controlling an outdoor air conditioner formed outside of a structure, the method comprising: drawing outdoor air into the outdoor air conditioner; cooling the outdoor air to a dehumidification temperature to provide dehumidified air in the outdoor air conditioner; determining whether an air conditioning load exists in an air conditioning space inside the structure based on one of: an amount of sunlight incident on a structure containing the air conditioning space or an operating status of the indoor air conditioner; heating the dehumidified air in the outdoor air conditioner to generate supply air if it is determined that no air conditioning load exists in the air conditioning space; passing the dehumidified air at the dehumidification temperature as the supply air if it is determined that an air conditioning load exists in the air conditioning space; and providing the supply air from the outdoor air conditioner to the air conditioning space without passing through an indoor air conditioner. 2. The method of claim 1 , wherein a minimum on time is a minimum amount of time that the dehumidified air can be heated, a minimum off time is a minimum amount of time that the dehumidified air can be passed as supply air without being heated, and the minimum on time is greater than the minimum off time. 3. The method of claim 1 , further comprising: determining whether the dehumidified air is currently being heated; determining whether the dehumidified air has been heated for a minimum on time if it is determined that the dehumidified air is currently being heated, heating the dehumidified air to generate supply air if it is determined that the set number of the plurality of indoor air conditioners are not operating in the cooling mode, or if the dehumidified air is currently being heating, but has not been heating for at least the minimum on time; and passing the dehumidified air at the dehumidification temperature as the supply air if it is determined that all of the plurality of indoor air conditioners are operating in the cooling mode, and that either the dehumidified air is not currently being heated or that the dehumidified air has been heated for a minimum on time, wherein the minimum on time is a minimum amount of time that the dehumidified air can be heated, a minimum off time is a minimum amount of time that the dehumidified air can be passed as supply air without being heated, and the minimum on time is greater than the minimum off time. 4. An air conditioning system, comprising: an outdoor air conditioner provided outside a structure, including an outdoor heat-exchanger, an outdoor heater, and an outdoor blower configured to draw outside air through the outdoor heat-exchanger and the outdoor heater to generate supply air, and to provide the supply air to an air conditioning space inside the structure; an indoor air conditioner provided inside the air conditioning space, including an indoor heat-exchanger, and an indoor blower configured to draw indoor air through the indoor heat-exchanger to generate conditioned indoor air, and to provide the conditioned indoor air to the air conditioning space; a control circuit configured to determine whether an air conditioning load exists in the air conditioning space, and to selectively turn on the outdoor heater based on whether the air conditioning load is determined to exist in the air conditioning space; and a load detector configured to identify an air conditioning load in the air conditioning space based on one of an amount of sunlight incident on a structure containing the air conditioning space or an operating status of the indoor air conditioner. 5. The air conditioning system of claim 4 , wherein the control circuit further comprises an indoor air conditioner operation sensor configured to determine whether the indoor air conditioner is currently operating, and the air conditioning load exists if the indoor air conditioner operation sensor determines that the indoor air conditioner is currently operating in cooling mode. 6. The air conditioning system of claim 4 , wherein the control circuit further comprises a solar radiation sensor configured to detect an amount of solar radiation incident on the air conditioning space, the air conditioning load exists if the detected amount of solar radiation exceeds a solar radiation threshold. 7. The air conditioning system of claim 4 , wherein the control circuit further comprises an indoor temperature sensor configured to detect an indoor temperature in the air conditioning space, the air conditioning load exists if the detected indoor temperature exceeds an indoor temperature threshold. 8. The air conditioning system of claim 4 , wherein the control circuit further comprises an air conditioning space population sensor configured to detect a number of people in the room. 9. The air conditioning system of claim 4 , wherein the control circuit further comprises an energy consumption sensor configured to detect an energy consumption of the air conditioning system, the air conditioning load exists if the detected energy consumption exceeds an energy consumption threshold. 10. The air conditioning system of claim 4 , wherein the control circuit further comprises a clock configured to determine a current time of day, the air conditioning load exists if the current time of day falls within a set time range. 11. The air conditioning system of claim 4 , wherein the control circuit further comprises a calendar circuit configured to determine a current date, the air conditioning load exists if the current date falls within a set date range. 12. The air conditioning system of claim 4 , wherein the control circuit further comprises an outside temperature sensor configured to detect the outside temperature, the air conditioning load exists if the outside temperature is above a temperature threshold. 13. The air conditioning system of claim 4 , wherein the control circuit further comprises an indoor temperature sensor configured to detect an indoor temperature in the room, and a supply air temperature sensor configured to detect a supply air temperature of the supply air, and the air conditioning load exists if the supply air temperature is lower than the indoor temperature. 14. A method of controlling an outdoor air conditioner formed outside of a structure, the method comprising: drawing outdoor air into the outdoor air conditioner; cooling the outdoor air to a dehumidification temperature to provide dehumidified air in the outdoor air conditioner; determining whether a set number of a plurality of indoor air conditioners associated in the structure, respectively, are operating in a cooling mode; heating the dehumidified air in the outdoor air conditioner to generate supply air if it is determined that the set number of the plurality of indoor air conditioners are not operating in the cooling mode; passing the dehumidified air at the dehumidification temperature as the supply air if it is determined that all of the plurality of indoor air conditioners are operating in the cooling mode; and providing the supply air from the outdoor air conditioner to the plurality of air conditioning spaces without passing through any of the plurality of indoor air conditioners. 15. The method of claim 14 , further comprising: continually repeating the operations of drawing outside air, cooling the outside air, determining whether the plurality of indoor air conditioners are operating, passing the dehumidified air as the supply air if it