TWI738516B - Power supply detection system for server power supply switching control and method thereof - Google Patents

Abstract

A power supply detection system for server power supply switching control and a method thereof are provided. Tested server obtains power supply through first power integrated device and second power integrated device. Power port control information is generated by power test program of tested server and power port control information is transferred to control server device. Internet protocol (IP) address is inquired according to power port control information by control server device. Power port control information is transferred to corresponding first power integrated device and/or second power integrated device from control server device according to IP address to control corresponding first power supply port and/or the second power supply port for on/off control. Therefore, the efficiency of providing server power supply switching control to have perfect power supply detection may be achieved.

Description

伺服器電源供應切換控制的供電檢測系統及其方法 Power supply detection system and method for server power supply switching control

一種控制與檢測系統及其方法，尤其是指一種提供伺服器電源供應切換控制的供電檢測系統及其方法。 A control and detection system and method thereof, in particular to a power supply detection system and method that provide server power supply switching control.

現有伺服器是透過單一的電源以提供電源供應，故而在對伺服器進行電源測試過程中，僅能依據單一的電源供應進行測試，無法進一步提供完善電源的測試過程，例如：對於電源的穩定性測試在單一電源供應的環境就無法進行測試。 Existing servers provide power supply through a single power supply. Therefore, in the process of power testing the server, it can only be tested based on a single power supply, and it cannot provide a complete power supply test process, for example: for the stability of the power supply. Testing cannot be performed in a single power supply environment.

綜上所述，可知先前技術中長期以來一直存在現有伺服器僅由單一電源供應導致電源測試過程完善性不足的問題，因此有必要提出改進的技術手段，來解決此一問題。 In summary, it can be seen that in the prior art, there has always been a problem that the existing server is only supplied with a single power source, which leads to insufficient integrity of the power supply test process. Therefore, it is necessary to propose improved technical means to solve this problem.

有鑒於先前技術存在現有伺服器僅由單一電源供應導致電源測試過程完善性不足的問題，本發明遂揭露一種伺服器電源供應切換控制的供電檢測系統及其方法，其中：本發明所揭露的伺服器電源供應切換控制的供電檢測系統，其包含：第一電源集成裝置、第二電源集成裝置、多個待測試伺服器以及控制伺服裝置。 In view of the problem in the prior art that the existing server is only supplied with a single power source and the power supply testing process is insufficient, the present invention discloses a power supply detection system and method for server power supply switching control, in which: the servo disclosed in the present invention The power supply detection system for switching control of the power supply of the device includes: a first power integrated device, a second power integrated device, a plurality of servers to be tested, and a control servo device.

第一電源集成裝置，具有多個第一供電埠，第一電源集成裝置接收供電埠控制資訊，依據供電埠控制資訊對對應的第一供電埠進行開啟/關閉的控制。 The first power integration device has a plurality of first power supply ports. The first power integration device receives power supply port control information, and controls the corresponding first power supply port to be turned on/off according to the power supply port control information.

第二電源集成裝置，具有多個第二供電埠，第二電源集成裝置接收供電埠控制資訊，依據供電埠控制資訊對對應的第二供電埠進行開啟/關閉的控制。 The second power integration device has a plurality of second power supply ports. The second power integration device receives power supply port control information, and controls the corresponding second power supply port on/off according to the power supply port control information.

每一個待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應，每一個待測試伺服器安裝與執行有電源測試程式，電源測試程式生成供電埠控制資訊並傳送供電埠控制資訊。 Each server to be tested obtains power supply through the first power integrated device and the second power integrated device. Each server to be tested has a power test program installed and executed. The power test program generates power supply port control information and transmits power supply port control information .

控制伺服裝置自待測試伺服器接收供電埠控制資訊，依據供電埠控制資訊查詢出第一電源集成裝置的網際網路協定位址(Internet Protocol Address，IP Address)以及/或是第二電源集成裝置的網際網路協定位址，依據第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址將供電埠控制資訊傳送至第一電源集成裝置以及/或是第二電源集成裝置。 The control servo device receives the power supply port control information from the server under test, and queries the Internet Protocol Address (IP Address) of the first power integration device and/or the second power integration device according to the power supply port control information According to the Internet Protocol address of the first power integration device and/or the Internet Protocol address of the second power integration device to transmit the power supply port control information to the first power integration device and /Or the second power integrated device.

本發明所揭露的伺服器電源供應切換控制的供電檢測方法，其包含下列步驟：首先，第一電源集成裝置具有多個第一供電埠；接著，第二電源集成裝置具有多個第二供電埠；接著，多個待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應；接著，每一個待測試伺服器安裝與執行有電源測試程式，電源測試程式生成供電埠控制資訊並傳送供電埠控制資訊至控制伺服裝置；接著，控制伺服裝置依據供電埠控制資訊查詢出第一電源集成裝置的網際網路協定位址(Internet Protocol Address，IP Address)以及/或是第二電源集成裝置的網際網路協定位址；接著，控制伺服裝置依據第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址將供電埠控制資訊傳送至第一電源集成裝置以及/或是第二電源集成裝置；接著，第一電源集成裝置依據供電埠控制資訊對對應的第一供電埠進行開啟/關閉的控制；最後，第二電源集成裝置依據供電埠控制資訊對對應的第二供電埠進行開啟/關閉的控制。 The power supply detection method for server power supply switching control disclosed in the present invention includes the following steps: first, the first power integration device has a plurality of first power supply ports; then, the second power integration device has a plurality of second power supply ports ; Next, multiple servers to be tested obtain power supply through the first power integrated device and the second power integrated device; then, each server to be tested has a power test program installed and executed, and the power test program generates power supply port control information and Send the power supply port control information to the control servo device; then, the control servo device queries the Internet Protocol Address (IP Address) of the first power integration device and/or the second power integration device according to the power supply port control information The Internet protocol address of the device; then, the control server device transmits the power port control information to the Internet protocol address of the first power integration device and/or the Internet protocol address of the second power integration device The first power integration device and/or the second power integration device; then, the first power integration device controls the opening/closing of the corresponding first power supply port according to the power supply port control information; finally, the second power integration device controls the power supply according to the power supply The port control information controls the opening/closing of the corresponding second power supply port.

本發明所揭露的系統及方法如上，與先前技術之間的差異在於待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應，待測試伺服器中的電源測試程式生成供電埠控制資訊並傳送至控制伺服裝置，控制伺服裝置依據供電埠控制資訊查詢出網際網路協定位址，控制伺服裝置再依據際網路協定位址將供電埠控制資訊傳送至對應的第一電源集成裝置以及/或是第二電源集成裝置以進行對應的第一供電埠以及/或是第二供電埠進行開啟/關閉的控制。 The system and method disclosed in the present invention are as above. The difference from the prior art is that the server to be tested obtains power supply through the first power integrated device and the second power integrated device, and the power test program in the server to be tested generates a power supply port The control information is sent to the control servo device. The control server device queries the Internet protocol address based on the power supply port control information, and the control server device sends the power supply port control information to the corresponding first power integration based on the Internet protocol address. The device and/or the second power integrated device are used to control the opening/closing of the corresponding first power supply port and/or the second power supply port.

透過上述的技術手段，本發明可以達成提供伺服器電源供應切換控制以具備完善供電檢測的技術功效。 Through the above-mentioned technical means, the present invention can provide the server power supply switching control to have the technical effect of perfect power supply detection.

10:第一電源集成裝置 10: The first power supply integrated device

11:第一供電埠 11: The first power supply port

111:第一個第一供電埠 111: The first first power supply port

20:第二電源集成裝置 20: Second power integrated device

21:第二供電埠 21: Second power supply port

211:第一個第二供電埠 211: The first second power supply port

30:待測試伺服器 30: Server to be tested

301:待測試伺服器 301: Server to be tested

31:電源測試程式 31: Power test program

40:控制伺服裝置 40: Control Servo Device

51:供電埠控制資訊 51: Power supply port control information

52:供電埠輪詢控制資訊 52: Power port polling control information

步驟101:第一電源集成裝置具有多個第一供電埠 Step 101: The first power integrated device has multiple first power supply ports

步驟102:第二電源集成裝置具有多個第二供電埠 Step 102: The second power integrated device has multiple second power supply ports

步驟103:多個待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應 Step 103: Multiple servers under test obtain power supply through the first power integrated device and the second power integrated device

步驟104:每一個待測試伺服器安裝與執行有電源測試程式，電源測試程式生成供電埠控制資訊並傳送供電埠控制資訊至控制伺服裝置 Step 104: Each server to be tested is installed and executed with a power test program. The power test program generates power supply port control information and sends the power supply port control information to the control server

步驟105:控制伺服裝置依據供電埠控制資訊查詢出第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址 Step 105: The control server device queries the Internet Protocol address of the first power integration device and/or the Internet Protocol address of the second power integration device according to the power supply port control information

步驟106:控制伺服裝置依據第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址將供電埠控制資訊傳送至第一電源集成裝置以及/或是第二電源集成裝置 Step 106: The control server device transmits the power supply port control information to the first power integration device and/or according to the Internet protocol address of the first power integration device and/or the Internet protocol address of the second power integration device Is the second power integrated device

步驟107:第一電源集成裝置依據供電埠控制資訊對對應的第一供電埠進行開啟/關閉的控制 Step 107: The first power integration device controls the opening/closing of the corresponding first power supply port according to the power supply port control information

步驟108:第二電源集成裝置依據供電埠控制資訊對對應的第二供電埠進行開啟/關閉的控制 Step 108: The second power integration device controls the corresponding second power supply port on/off according to the power supply port control information

第1圖繪示為本發明伺服器電源供應切換控制的供電檢測系統的系統方塊圖。 Figure 1 is a system block diagram of a power supply detection system for server power supply switching control according to the present invention.

第2圖繪示為本發明伺服器電源供應切換控制的供電檢測的架構配置圖。 FIG. 2 is a configuration diagram of the power supply detection structure of the server power supply switching control of the present invention.

第3圖繪示為本發明伺服器電源供應切換控制的供電檢測方法的方法流程圖。 FIG. 3 is a method flowchart of the power supply detection method of the server power supply switching control of the present invention.

以下將配合圖式及實施例來詳細說明本發明的實施方式，藉此對本發明如何應用技術手段來解決技術問題並達成技術功效的實現過程能充分理解並據以實施。 The following describes the implementation of the present invention in detail with the drawings and embodiments, so as to fully understand and implement the implementation process of how the present invention uses technical means to solve technical problems and achieve technical effects.

以下首先要說明本發明所揭露的伺服器電源供應切換控制的供電檢測系統，並請參考「第1圖」以及「第2圖」所示，「第1圖」繪示為本發明伺服器電源供應切換控制的供電檢測系統的系統方塊圖；「第2圖」繪示為本發明伺服器電源供應切換控制的供電檢測的架構配置圖。 The following first describes the power supply detection system for server power supply switching control disclosed in the present invention, and please refer to "Figure 1" and "Figure 2". "Figure 1" shows the server power supply of the present invention. The system block diagram of the power supply detection system controlled by supply switching; "Figure 2" shows the architecture configuration diagram of the power supply detection system controlled by the server power supply switching of the present invention.

本發明所揭露的伺服器電源供應切換控制的供電檢測系統，其包含：第一電源集成裝置10、第二電源集成裝置20、多個待測試伺服器30以及控制伺服裝置40。 The power supply detection system for server power supply switching control disclosed in the present invention includes: a first power integration device 10, a second power integration device 20, a plurality of servers to be tested 30, and a control servo device 40.

第一電源集成裝置10具有多個第一供電埠11，第二電源集成裝置20具有多個第二供電埠21，值得注意的是，第一電源集成裝置10的第一供電埠11的數量與第二電源集成裝置20的第二供電埠21的數量相同，每一個第一供電埠11分別提供一個待測試伺服器30電源供應，每一個第二供電埠21分別提供一個待測試伺服器30電源供應，亦即一個待測試伺服器30會同時自一個第一供電埠11以及一個第二供電埠21獲得電源供應。 The first power integrated device 10 has a plurality of first power supply ports 11, and the second power integrated device 20 has a plurality of second power supply ports 21. It is worth noting that the number of the first power supply ports 11 of the first power integrated device 10 is equal to The number of second power supply ports 21 of the second power integration device 20 is the same. Each first power supply port 11 provides a power supply for the server 30 to be tested, and each second power supply port 21 provides a power supply for the server 30 to be tested. Supply, that is, a server under test 30 will receive power supply from a first power port 11 and a second power port 21 at the same time.

每一個待測試伺服器30安裝與執行有電源測試程式31，待測試伺服器30的電源測試程式31生成供電埠控制資訊51，供電埠控制資訊51即是提供待測試伺服器30供應電源的第一供電埠11以及/或是一個第二供電埠21的開啟或是關閉。 Each server 30 to be tested is installed and executed with a power test program 31. The power test program 31 of the server 30 to be tested generates power supply port control information 51. The power supply port control information 51 provides the power supply of the server 30 under test. The opening or closing of a power supply port 11 and/or a second power supply port 21.

具體而言，假設待測試伺服器301是透過第一個第一供電埠111獲得電源供應，待測試伺服器301的電源測試程式31所生成的供電埠控制資訊51即是關閉第一個第一供電埠111，在此僅為舉例說明之，並不以此侷限本發明的應用範疇。 Specifically, assuming that the server under test 301 obtains power supply through the first first power supply port 111, the power supply port control information 51 generated by the power test program 31 of the server under test 301 turns off the first first power supply port 111. The power supply port 111 is only used as an example here, and is not intended to limit the scope of application of the present invention.

具體而言，假設待測試伺服器301是透過第一個第二供電埠211獲得電源供應，待測試伺服器301的電源測試程式31所生成的供電埠控制資訊51即是開啟第一個第二供電埠211，在此僅為舉例說明之，並不以此侷限本發明的應用範疇。 Specifically, assuming that the server under test 301 obtains power supply through the first second power supply port 211, the power supply port control information 51 generated by the power test program 31 of the server under test 301 is to turn on the first second power supply port 211. The power supply port 211 is only used as an example here, and is not intended to limit the scope of application of the present invention.

具體而言，假設待測試伺服器301是透過第一個第一供電埠111以及第一個第二供電埠211獲得電源供應，待測試伺服器301的電源測試程式31所生成的供電埠控制資訊51即是關閉第一個第一供電埠111以及關閉第一個第二供電埠211，在此僅為舉例說明之，並不以此侷限本發明的應用範疇。 Specifically, assuming that the server under test 301 obtains power supply through the first first power supply port 111 and the first second power supply port 211, the power supply port control information generated by the power test program 31 of the server under test 301 51 is closing the first first power supply port 111 and closing the first second power supply port 211. This is only an example for illustration, and does not limit the scope of application of the present invention.

在待測試伺服器30的電源測試程式31生成供電埠控制資訊51後，待測試伺服器30的電源測試程式31即可將供電埠控制資訊51傳送至控制伺服裝置40，控制伺服裝置40即可自待測試伺服器30的電源測試程式31接收供電埠控制資訊51。 After the power test program 31 of the server under test 30 generates the power supply port control information 51, the power test program 31 of the server under test 30 can send the power supply port control information 51 to the control servo device 40, and then the control server 40 can be controlled. The power supply port control information 51 is received from the power test program 31 of the server 30 under test.

在控制伺服裝置40中預先儲存有供電埠與網際網路協定位址對照表，控制伺服裝置40在自待測試伺服器30的電源測試程式31接收供電埠控制資訊51時，控制伺服裝置40即可依據所述供電埠控制資訊51的供電埠自對照表中查詢出第一電源集成裝置10的網際網路協定位址(Internet Protocol Address，IP Address)以及/或是第二電源集成裝置20的網際網路協定位址。 A comparison table of power supply ports and Internet protocol addresses is pre-stored in the control server 40. When the control server 40 receives the power supply port control information 51 from the power test program 31 of the server 30 under test, the control server 40 is The Internet Protocol Address (IP Address) of the first power integration device 10 and/or the Internet Protocol Address (IP Address) of the second power integration device 20 can be queried from the comparison table based on the power supply port of the power supply port control information 51 Internet protocol address.

在控制伺服裝置40查詢出第一電源集成裝置10的網際網路協定位址以及/或是第二電源集成裝置20的網際網路協定位址後，控制伺服裝置40即可依據第一電源集成裝置10的網際網路協定位址以及/或是第二電源集成裝置20的網際網路協定位址將供電埠控制資訊51傳送至第一電源集成裝置10以及/或是第二電源集成裝置20。 After the control servo device 40 inquires the Internet protocol address of the first power integration device 10 and/or the Internet protocol address of the second power integration device 20, the control servo device 40 can be integrated according to the first power source. The Internet Protocol address of the device 10 and/or the Internet Protocol address of the second power integration device 20 transmits the power supply port control information 51 to the first power integration device 10 and/or the second power integration device 20 .

在第一電源集成裝置10自控制伺服裝置40接收供電埠控制資訊51時，第一電源集成裝置10即可依據供電埠控制資訊51對對應的第一供電埠11進行開啟/關閉的控制，具體而言，假設供電埠控制資訊51為“關閉第一個第一供電埠111”，第一電源集成裝置10即可依據供電埠控制資訊51為“關閉第一個第一供電埠111”對第一個第一供電埠111進行關閉的控制；假設供電埠控制資訊51為“開啟第一個第二供電埠211”，第二電源集成裝置20即可依據供電埠控制資訊51為“開啟第一個第二供電埠211”對第一個第二供電埠211進行開啟的控制；假設供電埠控制資訊51為“關閉第一個第一供電埠111以及關閉 第一個第二供電埠211”，第一電源集成裝置10即可依據供電埠控制資訊51為“關閉第一個第一供電埠111”對第一個第一供電埠111進行關閉的控制，以及第二電源集成裝置20即可依據供電埠控制資訊51為“關閉第一個第二供電埠211”對第一個第二供電埠211進行關閉的控制。 When the first power integration device 10 receives the power supply port control information 51 from the control servo device 40, the first power integration device 10 can control the opening/closing of the corresponding first power supply port 11 according to the power supply port control information 51, specifically In other words, assuming that the power supply port control information 51 is "turn off the first first power supply port 111", the first power integration device 10 can use the power supply port control information 51 to "turn off the first first power supply port 111" to the first power supply port 111. A first power supply port 111 is controlled to be closed; assuming that the power supply port control information 51 is "open the first second power supply port 211", the second power integration device 20 can be based on the power supply port control information 51 to "open the first The second power supply port 211" controls the opening of the first second power supply port 211; assuming that the power supply port control information 51 is "close the first first power supply port 111 and close The first second power supply port 211", the first power integration device 10 can control the closing of the first first power supply port 111 according to the power supply port control information 51 as "closing the first first power supply port 111". And the second power integration device 20 can control the closing of the first and second power supply ports 211 according to the power supply port control information 51 as "closing the first and second power supply ports 211".

值得注意的是，在第一電源集成裝置10即可依據供電埠控制資訊51為“關閉第一個第一供電埠111”對第一個第一供電埠111進行關閉的控制，以及第二電源集成裝置20即可依據供電埠控制資訊51為“關閉第一個第二供電埠211”對第一個第二供電埠211進行關閉的控制時，第一電源集成裝置10或是第二電源集成裝置20提供裝置關閉指令以對連接於第一個第一供電埠111以及第一個第二供電埠211的待測試裝置301進行裝置關機的控制。 It is worth noting that the first power integration device 10 can control the first power supply port 111 to be turned off according to the power supply port control information 51 as "turn off the first first power supply port 111", and the second power supply When the integrated device 20 controls the closing of the first and second power supply ports 211 according to the power supply port control information 51 as "closing the first and second power supply ports 211", the first power supply integration device 10 or the second power supply integration The device 20 provides a device shutdown command to control the device to be tested 301 connected to the first first power supply port 111 and the first second power supply port 211 to shut down the device.

值得注意的是，在第一電源集成裝置10即可依據供電埠控制資訊51為“開啟第一個第一供電埠111”對第一個第一供電埠111進行開啟的控制，以及第二電源集成裝置20即可依據供電埠控制資訊51為“開啟第一個第二供電埠211”對第一個第二供電埠211進行開啟的控制時，第一電源集成裝置10或是第二電源集成裝置20提供裝置開啟指令以對連接於第一個第一供電埠111以及第一個第二供電埠211的待測試伺服器301進行裝置開啟的控制。 It is worth noting that the first power integration device 10 can control the opening of the first first power supply port 111 according to the power supply port control information 51 as "open the first first power supply port 111", and the second power supply When the integrated device 20 controls the opening of the first and second power supply ports 211 according to the power supply port control information 51 as "open the first and second power supply ports 211", the first power supply integration device 10 or the second power supply integration The device 20 provides a device opening command to control the device opening of the server to be tested 301 connected to the first first power supply port 111 and the first second power supply port 211.

控制伺服裝置40更包含生成供電埠輪詢控制資訊52，供電埠輪詢控制資訊52例如是：第一個第一供電埠111關閉以及第一個第二供電埠211開啟與第一個第一供電埠111開啟以及第一個第二供電埠211關閉的輪詢控制，控制伺服裝置40傳送第一電源集成裝置10的網際網路協定位址、第二電源集成裝置20的網際網路協定位址以及供電埠輪詢控制資訊52至待測試伺服器30。 The control server 40 further includes generating power port polling control information 52. The power port polling control information 52 is, for example: the first first power port 111 is closed and the first second power port 211 is open and the first The power supply port 111 is turned on and the first and second power supply ports 211 are turned off. Polling control controls the servo device 40 to transmit the Internet protocol address of the first power integration device 10 and the Internet protocol bit of the second power integration device 20 The address and power port poll control information 52 to the server 30 to be tested.

待測試伺服器301即可自控制伺服裝置40接收第一電源集成裝置10的網際網路協定位址、第二電源集成裝置20的網際網路協定位址以及供電埠輪詢控制資訊52，接著，待測試伺服器301會依據第一電源集成裝置10的網際網路協定位址以及第二電源集成裝置20的網際網路協定位址將供電埠輪詢控制資訊52傳送至第一電源集成裝置10以及第二電源集成裝置20，第一電源集成裝置10對對應的第一個第一供電埠111進行開啟/關閉的輪詢控制，以及第二電源集成裝置20對對應的第一個第二供電埠211進行關閉/開啟的輪詢控制，即第一電源集成裝置10的第一個第一供電埠111與第二電源集成裝置20的第一個第二供電埠211在同一時間僅會有一個供電埠提供待測試伺服器301的電源供應。 The server 301 to be tested can receive the Internet Protocol address of the first power integration device 10, the Internet Protocol address of the second power integration device 20, and the power port polling control information 52 from the control server 40, and then , The server to be tested 301 will send the power port polling control information 52 to the first power integration device according to the Internet protocol address of the first power integration device 10 and the Internet protocol address of the second power integration device 20 10 and the second power integration device 20. The first power integration device 10 performs the polling control on the corresponding first power supply port 111 on/off, and the second power integration device 20 performs the polling control on the corresponding first second power supply port 111. The power supply port 211 performs the polling control of closing/opening, that is, the first power supply port 111 of the first power integration device 10 and the first second power supply port 211 of the second power integration device 20 only have the same time A power supply port provides power supply for the server 301 under test.

值得注意的是，待測試伺服器301是透過安全外殼協定(Secure Shell，SSH)將供電埠輪詢控制資訊52傳送至第一電源集成裝置10以及第二電源集成裝置20。 It is worth noting that the server under test 301 transmits the power port polling control information 52 to the first power integrated device 10 and the second power integrated device 20 through the Secure Shell (SSH).

接著，以下將說明本發明的運作方法，並請參考「第3圖」所示，「第3圖」繪示為本發明伺服器電源供應切換控制的供電檢測方法的方法流程圖。 Next, the operation method of the present invention will be described below, and please refer to "Figure 3". "Figure 3" shows a method flow chart of the power supply detection method of the server power supply switching control of the present invention.

首先，第一電源集成裝置具有多個第一供電埠(步驟101)；接著，第二電源集成裝置具有多個第二供電埠(步驟102)；接著，多個待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應(步驟103)；接著，每一個待測試伺服器安裝與執行有電源測試程式，電源測試程式生成供電埠控制資訊並傳送供電埠控制資訊至控制伺服裝置(步驟104)；接著，控制伺服裝置依據供電埠控制資訊查詢出第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址(步驟105)；接著， 控制伺服裝置依據第一電源集成裝置的網際網路協定位址以及/或是第二電源集成裝置的網際網路協定位址將供電埠控制資訊傳送至第一電源集成裝置以及/或是第二電源集成裝置(步驟106)；接著，第一電源集成裝置依據供電埠控制資訊對對應的第一供電埠進行開啟/關閉的控制(步驟107)；最後，第二電源集成裝置依據供電埠控制資訊對對應的第二供電埠進行開啟/關閉的控制(步驟108)。 First, the first power integration device has a plurality of first power supply ports (step 101); then, the second power integration device has a plurality of second power supply ports (step 102); then, a plurality of servers to be tested through the first power supply The integrated device and the second power integrated device obtain power supply (step 103); then, each server to be tested is installed and executed with a power test program. The power test program generates power supply port control information and sends power supply port control information to the control server (Step 104); Next, the control server device queries the Internet Protocol address of the first power integration device and/or the Internet Protocol address of the second power integration device according to the power supply port control information (Step 105); then, The control servo device transmits the power supply port control information to the first power integration device and/or the second power integration device according to the Internet protocol address of the first power integration device and/or the Internet protocol address of the second power integration device The power integration device (step 106); then, the first power integration device controls the corresponding first power supply port to turn on/off according to the power supply port control information (step 107); finally, the second power integration device controls the power supply port according to the power supply port control information The corresponding second power supply port is controlled on/off (step 108).

綜上所述，可知本發明與先前技術之間的差異在於待測試伺服器透過第一電源集成裝置以及第二電源集成裝置獲得電源供應，待測試伺服器中的電源測試程式生成供電埠控制資訊並傳送至控制伺服裝置，控制伺服裝置依據供電埠控制資訊查詢出網際網路協定位址，控制伺服裝置再依據際網路協定位址將供電埠控制資訊傳送至對應的第一電源集成裝置以及/或是第二電源集成裝置以進行對應的第一供電埠以及/或是第二供電埠進行開啟/關閉的控制。 In summary, it can be seen that the difference between the present invention and the prior art is that the server under test obtains power supply through the first power integrated device and the second power integrated device, and the power test program in the server under test generates power supply port control information And send it to the control server device, the control server device queries the Internet protocol address according to the power supply port control information, and the control server device sends the power supply port control information to the corresponding first power integrated device according to the Internet protocol address and / Or a second power integrated device for controlling the corresponding first power port and/or the second power port to turn on/off.

藉由此一技術手段可以來解決先前技術所存在現有伺服器僅由單一電源供應導致電源測試過程完善性不足的問題，進而達成提供伺服器電源供應切換控制以具備完善供電檢測的技術功效。 This technical method can solve the problem of insufficient power supply test process integrity of the existing server due to only a single power supply in the prior art, and then achieve the technical effect of providing the server power supply switching control to have perfect power supply detection.

雖然本發明所揭露的實施方式如上，惟所述的內容並非用以直接限定本發明的專利保護範圍。任何本發明所屬技術領域中具有通常知識者，在不脫離本發明所揭露的精神和範圍的前提下，可以在實施的形式上及細節上作些許的更動。本發明的專利保護範圍，仍須以所附的申請專利範圍所界定者為準。 Although the embodiments disclosed in the present invention are as described above, the content described is not intended to directly limit the scope of patent protection of the present invention. Anyone with ordinary knowledge in the technical field to which the present invention belongs can make slight changes in the implementation form and details without departing from the spirit and scope disclosed by the present invention. The scope of patent protection of the present invention shall still be subject to those defined by the scope of the attached patent application.

10:第一電源集成裝置 10: The first power supply integrated device

11:第一供電埠 11: The first power supply port

20:第二電源集成裝置 20: Second power integrated device

21:第二供電埠 21: Second power supply port

30:待測試伺服器 30: Server to be tested

31:電源測試程式 31: Power test program

40:控制伺服裝置 40: Control Servo Device

Claims (10)

一種伺服器電源供應切換控制的供電檢測系統，其包含：一第一電源集成裝置，具有多個第一供電埠，所述第一電源集成裝置接收一供電埠控制資訊，依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟/關閉的控制；一第二電源集成裝置，具有多個第二供電埠，所述第二電源集成裝置接收所述供電埠控制資訊，依據所述供電埠控制資訊對對應的所述第二供電埠進行開啟/關閉的控制；多個待測試伺服器，每一個待測試伺服器透過所述第一電源集成裝置以及所述第二電源集成裝置獲得電源供應，每一個待測試伺服器安裝與執行有一電源測試程式，所述電源測試程式生成所述供電埠控制資訊並傳送所述供電埠控制資訊；及一控制伺服裝置，所述控制伺服裝置自所述待測試伺服器接收所述供電埠控制資訊，依據所述供電埠控制資訊查詢出所述第一電源集成裝置的網際網路協定位址(Internet Protocol Address，IP Address)以及/或是所述第二電源集成裝置的網際網路協定位址，依據所述第一電源集成裝置的網際網路協定位址以及/或是所述第二電源集成裝置的網際網路協定位址將所述供電埠控制資訊傳送至所述第一電源集成裝置以及/或是所述第二電源集成裝置。 A power supply detection system for server power supply switching control, comprising: a first power integration device having a plurality of first power supply ports, the first power integration device receiving a power supply port control information, and controlling according to the power supply port The information controls the opening/closing of the corresponding first power supply port; a second power integration device has a plurality of second power supply ports, and the second power integration device receives the power supply port control information according to the The power supply port control information controls the opening/closing of the corresponding second power supply port; a plurality of servers to be tested, each server to be tested is obtained through the first power integrated device and the second power integrated device Power supply, each server to be tested is installed and executed with a power test program, the power test program generates the power supply port control information and transmits the power supply port control information; and a control servo device, the control servo device automatically The server to be tested receives the power supply port control information, and queries the Internet Protocol Address (IP Address) and/or the power supply port control information of the first power integrated device. The Internet protocol address of the second power integrated device is based on the Internet protocol address of the first power integrated device and/or the Internet protocol address of the second power integrated device The power supply port control information is transmitted to the first power integrated device and/or the second power integrated device. 如請求項1所述的伺服器電源供應切換控制的供電檢測系統，其中所述控制伺服裝置更包含生成一供電埠輪詢控制資訊，所述控制伺服裝置傳 送所述第一電源集成裝置的網際網路協定位址、所述第二電源集成裝置的網際網路協定位址以及所述供電埠輪詢控制資訊至所述待測試伺服器，所述待測試伺服器依據所述第一電源集成裝置的網際網路協定位址以及所述第二電源集成裝置的網際網路協定位址將所述供電埠輪詢控制資訊傳送至所述第一電源集成裝置以及所述第二電源集成裝置，所述第一電源集成裝置以及所述第二電源集成裝置對對應的所述第一供電埠進行開啟/關閉的輪詢控制。 The power supply detection system for server power supply switching control according to claim 1, wherein the control servo device further includes generating a power port polling control information, and the control servo device transmits Send the Internet Protocol address of the first power integrated device, the Internet Protocol address of the second power integrated device, and the power supply port polling control information to the server to be tested, and The test server transmits the power supply port polling control information to the first power integration device according to the Internet protocol address of the first power integration device and the Internet protocol address of the second power integration device The device and the second power integrated device, the first power integrated device and the second power integrated device perform polling control of opening/closing the corresponding first power supply port. 如請求項2所述的伺服器電源供應切換控制的供電檢測系統，其中所述待測試伺服器是透過安全外殼協定(Secure Shell，SSH)將所述供電埠輪詢控制資訊傳送至所述第一電源集成裝置以及所述第二電源集成裝置。 The power supply detection system for server power supply switching control according to claim 2, wherein the server to be tested transmits the power port polling control information to the first through the Secure Shell (SSH) A power integrated device and the second power integrated device. 如請求項1所述的伺服器電源供應切換控制的供電檢測系統，其中所述第一電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行關閉的控制以及所述第二電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行關閉的控制時，所述第一電源集成裝置或是所述第二電源集成裝置提供一裝置關閉指令以對連接於所述第一供電埠以及所述第二供電埠的待測試伺服器進行裝置關機的控制。 The power supply detection system for server power supply switching control according to claim 1, wherein the first power integration device controls the closing of the corresponding first power supply port according to the power supply port control information, and the first power supply port When the second power integration device controls the corresponding first power supply port to close according to the power supply port control information, the first power integration device or the second power integration device provides a device shutdown command to connect The server to be tested at the first power supply port and the second power supply port performs device shutdown control. 如請求項1所述的伺服器電源供應切換控制的供電檢測系統，其中所述第一電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟的控制以及所述第二電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟的控制時，所述第一電源集成裝置或是所述第二電源集成裝置提供一裝置開啟指令以對連接於所述第一供電埠以及所述第二供電埠的待測試伺服器進行裝置開機的控制。 The power supply detection system for server power supply switching control according to claim 1, wherein the first power integration device controls the opening of the corresponding first power supply port according to the power supply port control information, and the first power supply port When the second power integration device controls the opening of the corresponding first power supply port according to the power supply port control information, the first power integration device or the second power integration device provides a device opening command to connect The server to be tested in the first power supply port and the second power supply port performs device boot control. 一種伺服器電源供應切換控制的供電檢測方法，其包含下列步驟：一第一電源集成裝置具有多個第一供電埠；一第二電源集成裝置具有多個第二供電埠；多個待測試伺服器透過所述第一電源集成裝置以及所述第二電源集成裝置獲得電源供應；每一個待測試伺服器安裝與執行有一電源測試程式，所述電源測試程式生成所述供電埠控制資訊並傳送所述供電埠控制資訊至一控制伺服裝置；所述控制伺服裝置依據所述供電埠控制資訊查詢出所述第一電源集成裝置的網際網路協定位址(Internet Protocol Address，IP Address)以及/或是所述第二電源集成裝置的網際網路協定位址；所述控制伺服裝置依據所述第一電源集成裝置的網際網路協定位址以及/或是所述第二電源集成裝置的網際網路協定位址將所述供電埠控制資訊傳送至所述第一電源集成裝置以及/或是所述第二電源集成裝置；所述第一電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟/關閉的控制；及所述第二電源集成裝置依據所述供電埠控制資訊對對應的所述第二供電埠進行開啟/關閉的控制。 A power supply detection method for server power supply switching control includes the following steps: a first power integration device has a plurality of first power supply ports; a second power integration device has a plurality of second power supply ports; a plurality of servos to be tested The device obtains power supply through the first power integrated device and the second power integrated device; each server to be tested is installed and executed with a power test program, the power test program generates the power supply port control information and transmits all The power supply port control information is sent to a control server device; the control server device queries the Internet Protocol Address (IP Address) and/or of the first power integrated device according to the power supply port control information Is the Internet Protocol address of the second power integrated device; the control server device is based on the Internet Protocol address of the first power integrated device and/or the Internet of the second power integrated device The path protocol address transmits the power supply port control information to the first power integration device and/or the second power integration device; The first power supply port performs on/off control; and the second power integration device controls the corresponding second power supply port on/off according to the power supply port control information. 如請求項6所述的伺服器電源供應切換控制的供電檢測方法，其中所述伺服器電源供應切換控制的供電檢測方法更包含下列步驟：所述控制伺服裝置生成一供電埠輪詢控制資訊；所述控制伺服裝置傳送所述第一電源集成裝置的網際網路協定位址、所述第二電源集成裝置的網際網路協定位址以及所述供電埠輪詢控制資訊至所述待測試伺服器；所述待測試伺服器依據所述第一電源集成裝置的網際網路協定位址以及所述第二電源集成裝置的網際網路協定位址將所述供電埠輪詢控制資訊傳送至所述第一電源集成裝置以及所述第二電源集成裝置；及所述第一電源集成裝置以及所述第二電源集成裝置對對應的所述第一供電埠進行開啟/關閉的輪詢控制。 The power supply detection method for server power supply switching control according to claim 6, wherein the power supply detection method for server power supply switching control further includes the following steps: the control servo device generates a power port polling control information; The control server device transmits the Internet protocol address of the first power integration device, the Internet protocol address of the second power integration device, and the power supply port polling control information to the server to be tested The server to be tested according to the Internet protocol address of the first power integrated device and the Internet protocol address of the second power integrated device to send the power supply port polling control information to all The first power integrated device and the second power integrated device; and the first power integrated device and the second power integrated device perform polling control of turning on/off the corresponding first power supply port. 如請求項7所述的伺服器電源供應切換控制的供電檢測方法，其中所述待測試伺服器是透過安全外殼協定(Secure Shell，SSH)將所述供電埠輪詢控制資訊傳送至所述第一電源集成裝置以及所述第二電源集成裝置。 The power supply detection method for server power supply switching control according to claim 7, wherein the server to be tested transmits the power port polling control information to the first through the Secure Shell (SSH) A power integrated device and the second power integrated device. 如請求項6所述的伺服器電源供應切換控制的供電檢測方法，其中所述第一電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行關閉的控制以及所述第二電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行關閉的控制時，所述第一電源集成裝置或是所述第二電源集成裝置提供一裝置關閉指令以對連接於所述第一供電埠以及所述第二供電埠的待測試伺服器進行裝置關機的控制。 The power supply detection method for server power supply switching control according to claim 6, wherein the first power integration device controls the corresponding first power supply port to close according to the power supply port control information, and the first power supply port When the second power integration device controls the corresponding first power supply port to close according to the power supply port control information, the first power integration device or the second power integration device provides a device shutdown command to connect The server to be tested at the first power supply port and the second power supply port performs device shutdown control. 如請求項6所述的伺服器電源供應切換控制的供電檢測方法，其中所述第一電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟的控制以及所述第二電源集成裝置依據所述供電埠控制資訊對對應的所述第一供電埠進行開啟的控制時，所述第一電源集成裝置或是所述第二電源集成裝置提供一裝置開啟指令以對連接於所述第一供電埠以及所述第二供電埠的待測試伺服器進行裝置開機的控制。 The power supply detection method for server power supply switching control according to claim 6, wherein the first power integration device controls the opening of the corresponding first power supply port according to the power supply port control information, and the first power supply port When the second power integration device controls the opening of the corresponding first power supply port according to the power supply port control information, the first power integration device or the second power integration device provides a device opening command to connect The server to be tested in the first power supply port and the second power supply port performs device boot control.

Images