An air-conditioning system is configured to determine an evaporating temperature control range of a first refrigerant circuit on the basis of the temperature of outdoor air, control an evaporating temperature of the first refrigerant circuit to a target evaporating temperature determined within the
An air-conditioning system is configured to determine an evaporating temperature control range of a first refrigerant circuit on the basis of the temperature of outdoor air, control an evaporating temperature of the first refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range of the first refrigerant circuit, determine an evaporating temperature control range of a second refrigerant circuit on the basis of the humidity of the outdoor air, and control an evaporating temperature of the second refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range of the second refrigerant circuit.
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1. An air-conditioning system comprising: a first refrigerant circuit configured to circulate therein a first refrigerant, the first refrigerant circuit including a first outdoor unit and an indoor unit; and a second refrigerant circuit configured to circulate therein a second refrigerant, the secon
1. An air-conditioning system comprising: a first refrigerant circuit configured to circulate therein a first refrigerant, the first refrigerant circuit including a first outdoor unit and an indoor unit; and a second refrigerant circuit configured to circulate therein a second refrigerant, the second refrigerant circuit including a second outdoor unit and a ventilator, the first refrigerant circuit including a first compressor, a first outdoor heat exchanger, a first expansion valve, and an indoor heat exchanger, the second refrigerant circuit including a second compressor, a second outdoor heat exchanger, a second expansion valve, and a cooler, the first outdoor unit including the first compressor and the first outdoor heat exchanger, the second outdoor unit including the second compressor and the second outdoor heat exchanger, the indoor unit including the first expansion valve and the indoor heat exchanger, and being configured to circulate indoor air while controlling a temperature of the indoor air, the ventilator including the second expansion valve and the cooler, and being configured to exchange the indoor air and outdoor air and control a temperature of the exchanged indoor air and the outdoor air, the first outdoor unit being connected to the indoor unit by first refrigerant piping, the second outdoor unit being connected to the ventilator by second refrigerant piping, the air-conditioning system further including a central controller and a sensor configured to detect a temperature of the outdoor air and a humidity of the outdoor air, the central controller being configured to: determine an evaporating temperature control range for the first refrigerant circuit based on the temperature of the outdoor air, control an evaporating temperature of the first refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range for the first refrigerant circuit, determine an evaporating temperature control range for the second refrigerant circuit based on the humidity of the outdoor air, control an evaporating temperature of the second refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range for the second refrigerant circuit, determine an upper limit and a lower limit of the evaporating temperature control range of the first refrigerant circuit to be lower for a temperature of the outdoor air exceeding a predetermined threshold T0 than for a temperature of the outdoor air below the threshold T0, determine an upper limit and a lower limit of the evaporating temperature control range of the second refrigerant circuit to be lower for a humidity of the outdoor air exceeding a predetermined threshold X0 than for a humidity of the outdoor air below the threshold X0, change the threshold T0 in accordance with a target temperature, the target temperature being a set indoor temperature, and change the threshold X0 in accordance with a target humidity, the target humidity being a set indoor humidity. 2. The air-conditioning system of claim 1, wherein the central controller is configured to: control the evaporating temperature of the first refrigerant circuit by controlling a frequency of the first compressor in the first refrigerant circuit, and control the evaporating temperature of the second refrigerant circuit by controlling a frequency of the second compressor in the second refrigerant circuit. 3. An air-conditioning system comprising: a first refrigerant circuit configured to circulate therein a first refrigerant, the first refrigerant circuit including a first outdoor unit and an indoor unit, and a second refrigerant circuit configured to circulate therein a second refrigerant, the second refrigerant circuit including a second outdoor unit and a ventilator, the first refrigerant circuit including a first compressor, a first outdoor heat exchanger, a first expansion valve, and an indoor heat exchanger, the second refrigerant circuit including a second compressor, a second outdoor heat exchanger, a second expansion valve, and a cooler, the first outdoor unit including the first compressor and the first outdoor heat exchanger, the second outdoor unit including the second compressor and the second outdoor heat exchanger, the indoor unit including the first expansion valve and the indoor heat exchanger, and being configured to circulate indoor air while controlling a temperature of the indoor air, the ventilator including the second expansion valve and the cooler, and being configured to exchange the indoor air and outdoor air and control a temperature of the exchanged indoor air and the outdoor air, the first outdoor unit being connected to the indoor unit by first refrigerant piping, the second outdoor unit being connected to the ventilator by second refrigerant piping, the air-conditioning system further including a central controller and a sensor configured to detect a temperature of the outdoor air and a humidity of the outdoor air, the central controller being configured to: determine an evaporating temperature control range for the first refrigerant circuit based on the temperature of the outdoor air, control an evaporating temperature of the first refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range for the first refrigerant circuit, determine an evaporating temperature control range for the second refrigerant circuit based on the humidity of the outdoor air, control an evaporating temperature of the second refrigerant circuit to a target evaporating temperature determined within the evaporating temperature control range for the second refrigerant circuit, determine an upper limit and a lower limit of the evaporating temperature control range of the first refrigerant circuit to be lower for a temperature of the outdoor air exceeding a predetermined threshold T0 than for a temperature of the outdoor air below the threshold T0, determine an upper limit and a lower limit of the evaporating temperature control range of the second refrigerant circuit to be lower for a humidity of the outdoor air exceeding a predetermined threshold X0 than for a humidity of the outdoor air below the threshold X0, determine the target evaporating temperature of the first refrigerant circuit based on a difference ΔT between the temperature of the indoor air and a set temperature, and determine the target evaporating temperature of the second refrigerant circuit based on a difference ΔX between the humidity of the indoor air and a set humidity, wherein when the difference ΔT=0, the target evaporating temperature of the first refrigerant circuit is the upper limit of the evaporating temperature control range of the first refrigerant circuit, and when the difference ΔT is a predetermined value T1 that is greater than 0, the target evaporating temperature of the first refrigerant circuit is the lower limit of the evaporating temperature control range of the first refrigerant circuit, and wherein when the difference ΔX=0, the target evaporating temperature of the second refrigerant circuit is the upper limit of the evaporating temperature control range of the second refrigerant circuit, and when the difference ΔX is a predetermined value X1 that is greater than 0, the target evaporating temperature of the second refrigerant circuit is the lower limit of the evaporating temperature control range of the second refrigerant circuit. 4. The air-conditioning system of claim 3, wherein the target evaporating temperature of the first refrigerant circuit has a proportional relationship to the difference ΔT with a negative proportionality constant, andwherein the target evaporating temperature of the second refrigerant circuit has a proportional relationship to the difference ΔX with a negative proportionality constant. 5. The air-conditioning system of claim 3, wherein the central controller is configured to: when the upper and lower limits of the evaporating temperature control range of the first refrigerant circuit are determined as first values and the difference ΔT is greater than a predetermined value T2 that is greater than the predetermined value T1, shift the upper and lower limits of the evaporating temperature control range of the first refrigerant circuit to values lower than the first values, and when the upper and lower limits of the evaporating temperature control range of the second refrigerant circuit are determined as second values, and the difference ΔX is greater than a predetermined value X2 that is greater than the predetermined value X1, shift the upper and lower limits of the evaporating temperature control range of the second refrigerant circuit to values lower than the second values. 6. The air-conditioning system of claim 3, wherein the central controller is configured to: when the difference ΔT is less than a predetermined value T3 that is less than 0 and the upper and lower limits of the evaporating temperature control range of the first refrigerant circuit are determined as third values, shift the upper and lower limits of the evaporating temperature control range of the first refrigerant circuit to values higher than the third values, andwhen the difference ΔX is less than a predetermined value X3 that is less than 0 and the upper and lower limits of the evaporating temperature control range of the second refrigerant circuit are determined as fourth values, shift the upper and lower limits of the evaporating temperature control range of the second refrigerant circuit to values higher than the fourth values.
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