CN220399612U - Server power supply detection system - Google Patents

Abstract

The utility model is suitable for the technical field of server power supply detection, and provides a server power supply detection system which comprises a detection manager and a power supply state collector, wherein the power supply state collector is connected with a server main board and is used for collecting state signals of a power supply module from the server main board, the power supply module is divided into a working state and a standby state, the power supply state collector can collect two state signals of the power supply module and form a periodic result of data detection, the power supply state collector is connected with the detection manager, and the detection manager can enable staff to observe the state of a server power supply more intuitively. Therefore, the utility model can periodically detect the server power supply, provide periodic detection data, timely predict whether the fault occurs and know the fault occurrence cause, and reduce the subsequent fault occurrence rate.

Description

Server power supply detection system

Technical Field

The present utility model relates to the field of server power detection technologies, and in particular, to server power detection

The system.

Background

The server power supply mainly comprises an input circuit, a rectifying and filtering circuit, a switching power supply circuit, a secondary power supply circuit and the like. The input circuit is mainly responsible for receiving the current input by an external power supply, the rectification filter circuit converts the alternating current into smooth direct current, the switching power supply circuit further processes the direct current and converts the direct current into the voltage required by each component in the server, and the secondary power supply circuit is responsible for providing more accurate and stable voltage. The detection of the power supply operating state in the prior art is not visually expressed, but only found to occur

And after the fault, detection and maintenance are carried out, and prediction cannot be carried out.

For example, the utility model discloses a direct current power supply detecting system for CN205263282U, this novel direct current power supply, microprocessor and alarm device that includes, two positive and negative poles of direct current power supply connect voltage sampling arrangement part input, the output of voltage sampling arrangement part links to each other with low pass filter circuit's input, low pass filter circuit's output links to each other with the input of amplifying circuit unit, the microprocessor input is connected to the output of amplifying circuit unit, the threshold value comparison unit is connected to the microprocessor input, the microprocessor output links to each other with the overvoltage protection unit input, the voltage sampling arrangement part input is connected to the overvoltage protection unit output, the microprocessor output passes through the relay and links to each other with alarm device, a direct current power supply detecting system, its disadvantage lies in the unable periodic detection power state.

In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

The utility model provides a server power supply detection system, which comprises a detection manager and a power supply state collector, wherein the power supply state collector is connected with a server main board and is configured to collect state signals of a power supply module from the server main board, the power supply module is divided into a working state and a standby state, the power supply state collector can collect two state signals of the power supply module and form a periodic result of data detection, and the power supply state collector is connected with the detection manager and is configured to more intuitively observe the state of a server power supply for a worker.

Further, the detection manager comprises an outer screen and an inner receiving device, the outer screen comprises a detection manager display screen, a power module signal lamp and a main power signal lamp, the detection manager is connected with the power state collector through a circuit, and a signal transmission mode is electric signal transmission.

Further, the power state collector and the power module are directly connected by a circuit, the power state collector and the main power supply are connected by a connector, the connector is arranged on the inner side and the outer side of the server main board, the inner side of the connector is connected with the power state collector, and the outer side of the connector is connected with the main power supply.

Furthermore, the detection manager is connected with the power state collector through a circuit, and the signal transmission mode is electric signal transmission.

Further, the detection manager is further connected to the server power motherboard and configured to receive the power switching working state signal and the standby state signal, and correspondingly detect and display whether the power module is down.

Further, the status signal of the power module includes an output voltage normal indication signal and a power control enable signal; responding to the output voltage normal indication signal as a high level signal, and judging that the state signal of the power supply module is normal; in response to the power control enable signal being a low level signal, it is determined that the status signal of the power module is abnormal.

In summary, the utility model has the following beneficial effects: the utility model can periodically detect the server power supply, provide periodic detection data, timely predict whether the fault occurs and know the fault occurrence cause, and reduce the subsequent fault occurrence rate.

Drawings

FIG. 1 is a block diagram of a system of the present utility model;

FIG. 2 is a flow chart of the system of FIG. 1;

FIG. 3 is a block diagram of the detection manager of FIG. 1;

in the figure: 1-detection manager, 2-power state collector, 3-server mainboard, 4-power module, 5-level signal, 6-operating condition signal, 7-standby condition signal, 8-connector, 9-main power supply, 10-detection manager display screen, 11-power module signal lamp, 12-main power signal lamp.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It should be noted that, in the description of the present utility model, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1 and 2, the utility model provides a server power supply detection system, which comprises a detection manager 1 and a power supply state collector 2, wherein the power supply state collector 2 is connected with a server main board 3, the power supply state collector 2 collects a state signal of a power supply module 4 from a connection part of the server main board 3 and the power supply module, the power supply module 4 has two states, namely a working state and a standby state, the power supply state collector 2 can collect a working state signal 6 of the power supply module and a standby state signal 7 of the power supply module, and form a data detection periodic result, the power supply state collector 2 is connected with the detection manager 1, and the detection manager 1 is convenient for a worker to intuitively observe the state of a server power supply; the detection manager 1 is a device for receiving signals and expressing the meaning of the signals; the detection manager 1 is connected with the power supply module 4 and the power supply state collector 2 through a circuit, and finally displays a level signal 5 generated during power supply work as a transmission signal on the detection manager display screen 10; the power state collector 2 also receives the level signal 5 of the power module 4, performs periodic detection, further forms a data detection periodic result, and transmits the data detection periodic result to the detection manager 1, so that a maintainer intuitively judges the state of the power module 4, thereby judging whether maintenance or repair is required.

In detail, the detection manager 1 is directly connected with the power module 4, and the status signal of the power module 4 includes an output voltage normal indication signal and a power control enable signal; the level signal 5 is a high level signal, the level signal 5 is a low level signal, and the state signal of the power supply module 4 is judged to be normal in response to the high level signal, which is an indication signal of normal output voltage; in response to the power control enable signal being a low level signal, determining that the status signal of the power module 4 is abnormal; the level signal 5 is received by the detection manager 1 after being generated, and the detection manager 1 transmits the level signal 5 to a signal lamp of a screen.

In detail, the power state collector 2 not only collects the signal of the working state of the power module 4, when the power module 4 is in the standby state, the server motherboard 3 is connected with the main power supply 9 to transmit current to the power module 4, so that the power module 4 can generate abnormal level when in the standby state, and the power state collector 2 also collects the signal of the power module 4 when in the standby state, thereby enabling a maintainer to intuitively judge which state of the power supply is damaged, and further performing corresponding maintenance or repair.

Referring to fig. 3, the power state collector 2 is connected to the server motherboard 3 by a connector 8, the server motherboard 3 is connected to a main power supply 9, the main power supply 9 transmits an electrical signal to the power module 4, so that the power state collector 2 is also connected to the main power supply 9, collects the working state of the main power supply 9, and further transmits a signal to the detection manager 1, and judges whether the main power supply 9 is abnormal by the display color of the main power signal lamp 12 on the detection manager 1; if the main power signal lamp 12 on the detection manager 1 is green, the transmission of the main power 9 is normal; if the main power signal lamp 12 on the detection manager 1 is red, the main power 9 transmits an abnormality.

In summary, the detection manager 1 is connected to the power state collector 2, the power state collector 2 is connected to the server power module 4, collects the working state signal 6 and the standby state signal 7 of the power module 4, and transmits the result to the detection manager 1, so that maintenance personnel can conveniently judge whether the server power module 4 is to be maintained or repaired; the detection manager 1 is also directly connected with the power module 4, the detection manager 1 detects a level signal 5 of the power module 4, and whether the power module 4 is down is judged by detecting the color of a power module signal lamp 11 on the detection manager 1; the power state collector 2 is also connected with a main power supply 9, and collects information of the main power supply 9 and transmits the information to the detection manager 1; therefore, maintenance personnel can determine whether maintenance is needed or not by detecting the periodic result of the data detection of the manager 1, and the failure rate of the power supply module 4 is reduced; if the power module 4 fails, maintenance personnel can also judge which part fails through detecting the signal lamp of the manager 1, so that the corresponding power module 4 or the main power supply 9 is maintained, the detection time of the maintenance personnel is saved, the failure part of the server power supply can be rapidly known, and the maintenance efficiency is improved.

Of course, the present utility model is capable of other and further embodiments, and various modifications and alterations can be made by those skilled in the art without departing from the spirit and substance of the utility model, but these modifications and alterations shall fall within the scope of the appended claims

And (5) protecting the scope.

Claims (7)

1. The utility model provides a server power detecting system which characterized in that, including detecting manager and power state collector, power state collector is connected with the server mainboard, power state collector gathers power module's status signal, power state collector is connected with detecting manager, detecting manager receives power state collector signal, power state collector is connected with the main power supply.

2. The server power supply detection system according to claim 1, wherein the detection manager comprises an external screen and an internal receiving device, the external screen comprises a detection manager display screen, a power module signal lamp and a main power signal lamp, the detection manager and the power state collector are connected by a circuit, and the signal transmission mode is electric signal transmission.

3. The server power supply detection system according to claim 1, wherein the power supply state collector collects an operation state signal of the power supply module and a standby state signal of the power supply module, and performs periodic detection to form a data detection periodic result of the operation state of the power supply module and a data detection periodic result of the standby state, the periodicity is set to one week, and the power supply state collector transmits the data detection periodic result to the detection manager.

4. The server power detection system of claim 1, wherein the detection manager is further coupled to the server power module.

5. The server power detection system of claim 4 wherein the status signal of the power module includes an output voltage normal indication signal and a power control enable signal.

6. The server power detection system according to claim 1, wherein the power state collector and the power module are directly connected by a line, the power state collector and the main power supply are connected by a connector, the connector is disposed on both sides inside and outside the server main board, the inside of the connector is connected with the power state collector, and the outside of the connector is connected with the main power supply.

7. The server power detection system of claim 5, wherein the power state collector collects a state signal of the main power and transmits the detected result to the detection manager.