Cooling control for data centers with cold aisle containment systems
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05K-005/00
H05K-007/20
H05K-007/14
출원번호
US-0847711
(2015-09-08)
등록번호
US-9943011
(2018-04-10)
발명자
/ 주소
Shrivastava, Saurabh K.
Ibrahim, Mahmoud I.
Muralidharan, Bharathkrishnan
출원인 / 주소
Panduit Corp.
대리인 / 주소
Clancy, Christopher S.
인용정보
피인용 횟수 :
0인용 특허 :
22
초록
Embodiments of the present invention generally relate to the field of data center cooling and energy management. In an embodiment of the present invention, multiple PODs within a data center are controlled by a controller via active dampers.
대표청구항▼
1. A data center, comprising: a first datacenter POD including a first plurality of rows of cabinets where each of said first plurality of rows of cabinets are adjacent to and share a first contained cold aisle, said first contained cold aisle including a first pressure sensor having a first pressur
1. A data center, comprising: a first datacenter POD including a first plurality of rows of cabinets where each of said first plurality of rows of cabinets are adjacent to and share a first contained cold aisle, said first contained cold aisle including a first pressure sensor having a first pressure set point;a second datacenter POD including a second plurality of rows of cabinets where each of said second plurality of rows of cabinets are adjacent to and share a second contained cold aisle, said second contained cold aisle including a second pressure sensor having a second pressure set point;an underfloor cold air supply plenum connected to both said first contained cold aisle and said contained second cold aisle, said underfloor cold air supply plenum including a third pressure sensor having a third pressure set point;a first active damper floor tile connected to and between said first contained cold aisle and said cold air supply;a second active damper floor tile connected to and between said second contained cold aisle and said cold air supply and;a controller connected to said cold air supply, said first active damper, and said second active damper floor tile, said controller to:determine, based on pressure sensor data received from the third pressure sensor, that pressure in the underfloor cold air supply plenum matches the third pressure set point in the underfloor cold air supply plenum; in response to determining that the pressure in the underfloor cold air supply plenum matches the third pressure set point, determine, based on pressure sensor data received from the first pressure sensor, that pressure in the first contained cold aisle does not match the first pressure set point in the first contained cold aisle; in response to determining that the pressure in the first contained cold aisle does not match the first pressure set point, determine whether the first active damper floor tile is 100% opened; and in response to determining that the first active damper floor tile is 100% opened: override the third pressure set point in the underfloor cold air supply plenum; and control, based on the pressure sensor data received from the first pressure sensor, a fan speed of a fan in a cooling unit in the data center to achieve the first pressure set point in the first contained cold aisle. 2. The data center of claim 1, wherein said underfloor cold air supply plenum provides a cold air flow having both a temperature and a volumetric flow rate associated therewith, the temperature of said cold air flow being controlled by said controller based on at least one of a first temperature set point in the first contained cold aisle and a second temperature set point in the second contained cold aisle. 3. The data center of claim 1, wherein said cold air supply includes at least one of a supply air temperature sensor and a supply air pressure sensor. 4. The data center of claim 3, wherein at least one of said supply air temperature sensor and said supply air pressure sensor is a wireless sensor. 5. The data center of claim 1, wherein said first contained cold aisle and said second contained cold aisle includes at least one of a cabinet inlet temperature sensor. 6. The data center of claim 5, wherein said cabinet inlet temperature sensor is a wireless sensor. 7. The data center of claim 1, wherein at least one of said first active damper floor tile and said second active damper floor tile is powered using a power over Ethernet device. 8. A method for cooling a data center, the method performed by an active cold aisle containment (CAC) controller and comprising: determining, based on pressure sensor data received from a first pressure sensor included in an underfloor cold air supply plenum, whether pressure in the underfloor cold air supply plenum matches a first pressure set point in the underfloor cold air supply plenum;in response to determining that the pressure in the underfloor cold air supply plenum matches the first pressure set point, determining, based on pressure sensor data received from a second pressure sensor included in a first contained cold aisle in the data center, whether pressure in the first contained cold aisle matches a second pressure set point in the first contained cold aisle; anddetermining, based on pressure sensor data received from a third pressure sensor included in a second contained cold aisle in the data center, whether pressure in the second contained cold aisle matches the third pressure set point;in response to determining that the pressure in the first contained cold aisle does not match the second pressure set point, determining whether an active damper tile associated with the first contained cold aisle is 100% opened; andin response to determining that the active damper tile associated with the first contained cold aisle is 100% opened: overriding the first pressure set point in the underfloor cold air supply plenum; andcontrolling, based on the pressure sensor data received from the second pressure sensor, fan speed of fans in a cooling unit to achieve the second pressure set point in the first contained cold aisle. 9. The method of claim 8, comprising: in response to determining that the pressure in the underfloor cold air supply plenum does not match the first pressure set point, controlling the fan speed of the fans in the cooling unit in the data center to achieve the first pressure set point in the underfloor cold air supply plenum based on the pressure sensor data received from the first pressure sensor. 10. The method of claim 8, comprising: in response to determining that the pressure in the first contained cold aisle does not match the second pressure set point, determining whether at least one of the active damper tile associated with the first contained cold aisle and a second active damper tile associated with the second contained cold aisle is 100% opened. 11. The method of claim 10, comprising: in response to determining that at least one of the active damper tile associated with the first contained cold aisle and the second active damper tile associated with the second contained cold aisle is 100% opened: overriding the first pressure set point in the underfloor cold air supply plenum; andcontrolling, based on the pressure sensor data received from the second pressure sensor and pressure sensor data received from the third pressure sensor, the fan speed of the fans in the cooling unit to achieve the second pressure set point in the first contained cold aisle and the third pressure set point the second contained cold aisle. 12. A data center cooling control system, comprising: a plurality of cooling units;at least a first active damper floor tile and a first pressure sensor included in a first contained cold aisle in the data center;at least a second active damper floor tile and a second pressure sensor included in a second contained cold aisle in the data center;a third pressure sensor included in an underfloor cold air supply plenum in the data center; andan active cold aisle containment (CAC) controller to: determine, based on pressure sensor data received from the third pressure sensor, that pressure in the underfloor cold air supply plenum matches a first pressure set point in the underfloor cold air supply plenum;in response to determining that the pressure in the underfloor cold air supply plenum matches the first pressure set point, determine, based on pressure sensor data received from the first pressure sensor, that pressure in the first contained cold aisle does not match a second pressure set point in the first contained cold aisle;in response to determining that the pressure in the first contained cold aisle does not match the second pressure set point, determine whether the first active damper floor tile is 100% opened; andin response to determining that the first active damper floor tile is 100% opened: override the first pressure set point in the underfloor cold air supply plenum; andcontrol, based on the pressure sensor data received from the first pressure sensor, fan speed of fans in the plurality of cooling units to achieve the second pressure set point in the first contained cold aisle. 13. The data center cooling system of claim 12, wherein the active CAC controller is to: after overriding the first pressure set point in the underfloor cold air supply plenum and controlling the fan speed of fans in the plurality of cooling units to achieve the second pressure set point in the first contained cold aisle, determine, based on the pressure sensor data received from the first pressure sensor, whether the pressure in the first contained cold aisle matches the second pressure set point. 14. The data center cooling system of claim 13, wherein the active CAC controller is to: in response to determining that the pressure in the first contained cold aisle does not match the second pressure set point after overriding the first pressure set point in the underfloor cold air supply plenum and controlling the fan speed of fans in the plurality of cooling units to achieve the second pressure set point in the first contained cold aisle, sending an alarm to a user interface of the data center cooling system to adjust a number of active damper floor tiles associated with the first contained cold aisle. 15. The data center cooling system of claim 12, wherein the active CAC controller is to: determine, based on the pressure sensor data received from the third pressure sensor, that the pressure in the underfloor cold air supply plenum does not match the first pressure set point in the underfloor cold air supply plenum; andin response to determining that the pressure in the underfloor cold air supply plenum does not match the first pressure set point, control the fan speed of the fans in the plurality of cooling units in the data center to achieve the first pressure set point in the underfloor cold air supply plenum based on the pressure sensor data received from the third pressure sensor. 16. The data center cooling system of claim 12, wherein the active CAC controller is to: control, based on the pressure sensor data received from the first pressure sensor, the first active damper floor tile to partition a volumetric flow rate of a cold air flow to achieve the second pressure set point in the first contained cold aisle;control, based on the pressure sensor data received from the second pressure sensor, the second active damper floor tile to partition the volumetric flow rate to achieve a third pressure set point in the second contained cold aisle; andcontrol, based on the pressure sensor data received from the third pressure sensor, the fan speed of the fans in the plurality of cooling units in the data center to achieve the first pressure set point in the underfloor cold air supply plenum.
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