System and method for using a photovoltaic power source with a secondary coolant refrigeration system
First Claim
1. A refrigeration system powered primarily by a photovoltaic source and by an alternating current (AC) source as a backup, the refrigeration system having a primary loop and a secondary loop, the refrigeration system having a pump for pumping coolant fluid through the secondary loop, the system comprising:
- a variable frequency drive for controlling the speed of the pump, the variable frequency drive comprising;
drive circuitry configured to provide variable frequency power to the pump via an output interface;
a first interface configured to receive power from the photovoltaic source;
a second interface configured to receive AC power from the AC source;
a DC bus coupled to the drive circuitry and configured to transmit power to the drive circuitry;
a rectifier coupled to the second interface and to the DC bus, wherein the rectifier is configured to receive the AC power from the AC source, convert the AC power into DC power, and transmit the DC power to the drive circuitry via the DC bus; and
a diode coupled to the first interface and to the DC bus, the diode having a cut-in voltage of at least 1.35 times an expected voltage of the AC source, wherein the diode is configured to receive the power from the photovoltaic source and transmit the power to the drive circuitry via the DC bus,wherein the rectifier and the diode are configured to switch between providing power to the drive circuitry from the first interface and providing power to the drive circuitry from the second interface, and wherein the rectifier and the diode are configured to cause the drive circuitry to be powered by power received at the first interface when a voltage of the photovoltaic source is greater than the cut-in voltage of the diode and to be powered by power received at the second interface when the voltage of the photovoltaic source is less than a voltage of the AC source and when the voltage of the photovoltaic source is greater than the voltage of the AC source but less than the cut-in voltage of the diode.
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Accused Products
Abstract
A secondary coolant refrigeration system powered primarily by a photovoltaic source and by an alternating current (AC) source as a backup is disclosed. The secondary coolant refrigeration system has a pump for pumping secondary coolant fluid through a secondary coolant fluid loop. The system includes a variable frequency drive for controlling the speed of the pump. The variable frequency drive includes drive circuitry configured to provide variable frequency power to the pump via an output interface. The variable frequency drive also includes a first interface configured to receive power from the photovoltaic source and a second interface configured to receive power from the AC source. The circuit is further configured to cause the variable speed drive to be powered by the photovoltaic source when the power received from the first interface is adequate and by the AC source when the power received from the first interface is not adequate.
38 Citations
11 Claims
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1. A refrigeration system powered primarily by a photovoltaic source and by an alternating current (AC) source as a backup, the refrigeration system having a primary loop and a secondary loop, the refrigeration system having a pump for pumping coolant fluid through the secondary loop, the system comprising:
a variable frequency drive for controlling the speed of the pump, the variable frequency drive comprising; drive circuitry configured to provide variable frequency power to the pump via an output interface; a first interface configured to receive power from the photovoltaic source; a second interface configured to receive AC power from the AC source; a DC bus coupled to the drive circuitry and configured to transmit power to the drive circuitry; a rectifier coupled to the second interface and to the DC bus, wherein the rectifier is configured to receive the AC power from the AC source, convert the AC power into DC power, and transmit the DC power to the drive circuitry via the DC bus; and a diode coupled to the first interface and to the DC bus, the diode having a cut-in voltage of at least 1.35 times an expected voltage of the AC source, wherein the diode is configured to receive the power from the photovoltaic source and transmit the power to the drive circuitry via the DC bus, wherein the rectifier and the diode are configured to switch between providing power to the drive circuitry from the first interface and providing power to the drive circuitry from the second interface, and wherein the rectifier and the diode are configured to cause the drive circuitry to be powered by power received at the first interface when a voltage of the photovoltaic source is greater than the cut-in voltage of the diode and to be powered by power received at the second interface when the voltage of the photovoltaic source is less than a voltage of the AC source and when the voltage of the photovoltaic source is greater than the voltage of the AC source but less than the cut-in voltage of the diode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for cooling a plurality of refrigeration loads, the system comprising:
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a plurality of secondary coolant fluid loops configured to cool the plurality of refrigeration loads; a plurality of coolant pumps, each coolant pump associated with at least one secondary coolant fluid loop; a plurality of variable frequency drives, each variable frequency drive configured to control and drive one of the plurality of coolant pumps; at least one photovoltaic power source; and at least one diode configured to provide power from the at least one photovoltaic power source to the plurality of coolant pumps, the diode having a cut-in voltage of at least 1.35 times an expected voltage of a second power source; wherein the plurality of variable frequency drives are configured to receive power from the photovoltaic power source and to use the power from the photovoltaic power source to drive the coolant pumps when a voltage of the photovoltaic power source is greater than the cut-in voltage of the diode, and wherein each variable frequency drive is also configured to receive power from the second power source and to use the power received from the second power source when the voltage of the photovoltaic power source is less than a voltage of the second power source and when the voltage of the photovoltaic source is greater than the voltage of the second power source but less than the cut-in voltage of the diode, wherein the cut-in voltage is a minimum voltage requirement and wherein the second power source is one of grid power and a battery backup source, wherein a separate photovoltaic power source is provided for each of the variable frequency drives.
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Specification