Disclosure of Invention
The invention provides a controller stability control system of equipment, and aims to solve the problems of poor stability and low practicability of a controller caused by the fact that the conventional controller cannot reasonably balance power utilization.
In order to achieve the purpose, the invention provides a controller stability control system of equipment, which comprises a power supply, a controller and an equipment assembly, wherein the controller is connected with the power supply and the equipment assembly, the equipment assembly comprises a computing board and a fan, a network module, a main power interface, a voltage stabilizing module, a control chip, an element module, a computing interface, an auxiliary power interface and a fan interface are arranged in the controller, the power supply is respectively and electrically connected with the main power interface and the auxiliary power interface, a voltage stabilizing module is connected between the control chip and the main power interface, the control chip is connected with the network module, the element module and the computing interface, the auxiliary power interface is connected with the fan interface, the computing interface is in communication connection with the computing board, and the fan interface is electrically connected with the fan.
Preferably, the voltage stabilizing module comprises an AC/DC converter and a voltage stabilizer, the AC/DC converter is electrically connected with the main power interface and the voltage stabilizer, and the voltage stabilizer is electrically connected with the control chip.
Preferably, the AC/DC converter converts the voltage input by the main power interface into a 3.8V voltage for the voltage stabilizer to stabilize and then input to the control chip.
Preferably, the component module includes but not limited to first pilot lamp, second pilot lamp, switch and TF slot, control chip respectively with first pilot lamp, second pilot lamp, switch, TF slot electric connection, first pilot lamp is used for the early warning of control chip operation to show, the second pilot lamp is used for calculating early warning that power interface voltage output shows.
Preferably, the first indicator light and the second indicator light are both provided with red lights and green lights.
Preferably, the switch includes a first switch and a second switch, the first switch is located at one side of the second switch, the first switch is used for controlling the start or reset of the chip, and the second switch is used for starting or reset of the controller.
Preferably, the force calculation board is provided with a plurality of force calculation chips, and the force calculation chips are sequentially arranged and connected in series.
Preferably, the control chip is an FPGA chip.
Compared with the prior art, the invention has the beneficial effects that:
the invention provides a controller stability control system of equipment, which is used for reasonably and evenly distributing power by separately accessing power consumption through a main power supply interface and an auxiliary power supply interface, thereby ensuring that the controller can timely and effectively control the equipment and improving the stability and the practicability of the controller.
To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Detailed Description
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
The embodiment of the invention provides a controller stability control system of equipment, which is shown in a figure 1 and comprises a power supply 1, a controller 2 and an equipment assembly 3, wherein the controller 2 is connected with the power supply 1 and the equipment assembly 3, the equipment assembly 3 comprises an arithmetic board 4 and a fan 5, a network module 6, a main power interface 9, a voltage stabilization module 7, a control chip 10, a component module 8, an arithmetic interface 11, an auxiliary power interface 12 and a fan 5 interface are arranged in the controller 2, the power supply 1 is respectively and electrically connected with the main power interface 9 and the auxiliary power interface 12, the voltage stabilization module 7 is connected between the control chip 10 and the main power interface 9, the control chip 10 is connected with the network module 6, the component module 8 and the arithmetic interface 11, the auxiliary power interface 12 is connected with the fan 5 interface, the arithmetic interface 11 is in communication connection with the arithmetic board 4, the fan 5 interface is electrically connected with the fan 5.
In this embodiment, the controller 2 connected to the equipment component 3 is improved, the main power interface 9 and the auxiliary power interface 12 are separately connected to the external power supply 1, the main power interface 9 supplies power to the control chip 10 through the voltage stabilizing module 7, the control chip 10 is in communication connection with the computing power board 4 through the computing power interface 11, and the auxiliary power interface 12 is connected to the fan 5 of the equipment component 3 through the fan 5 interface. Certainly, fan 5 is including installing two preceding, back fans 5 in equipment unit 3, and fan 5 is also different according to the different power consumptions of rotational speed, and the use of assisting power source 12 supply fan 5 is independently distributed in controller 2, can avoid fan 5 to occupy the rate of utilization and the performance distribution of controller 2, and reasonable distribution is balanced to be used, ensures controller 2 to the timely effective management and control of equipment, improves controller 2's stability and practicality.
Specifically, the control chip 10 is an FPGA chip, and the english language of the FPGA is Field-Programmable Gate Array, which is a semi-customized circuit in the Field of integrated circuits, and can solve the defects of the customized circuit, and the FPGA chip is in communication connection with a plurality of components to perform centralized control on the components. For example, the FPGA chip has a self-contained programmable digital program, so that timely and effective adjustment is provided for the use of a user, and the FPGA chip can better meet the user requirements and has good practicability for common IC chips.
Further, referring to fig. 2, the voltage stabilizing module 7 includes an AC/DC converter 701 and a voltage stabilizer 702, the AC/DC converter 701 is electrically connected to the main power interface 9 and the voltage stabilizer 702, and the voltage stabilizer 702 is electrically connected to the control chip 10.
In this embodiment, the voltage input from the external power supply 1 to the main power interface 9 and the auxiliary power interface 12 of the controller 2 is 12V, and since the power input requirement of the control chip 10 is controlled to be 3.8V, and the voltage is not fluctuable and unstable, the AC/DC converter 701 is adopted at one end of the main power interface 9 to convert the 12V voltage into 3.8V voltage, which is then input to the control chip 10 after being stabilized by the voltage stabilizer 702.
The AC/DC converter 701 is a component that converts AC power to DC power, and can filter and reduce AC components and increase DC components, and further stabilize the converted DC voltage by the voltage stabilizer 702.
Further, referring to fig. 3, the component module 8 includes, but is not limited to, a first indicator 801, a second indicator 802, a switch 803, and a TF slot 804, the switch 803 includes a first switch 807 and a second switch 808, the first switch 807 is located at one side of the second switch 808, and the control chip 10 is electrically connected to the first indicator 801, the second indicator 802, the first switch 807, the second switch 808, and the TF slot 804, respectively.
In this embodiment, the controller 2 employs the component module 8 with low power consumption and small fluctuation, which includes but is not limited to the first indicator light 801, the second indicator light 802, the first switch 807, the second switch 808, and the TF slot 804, and further includes other components, such as a diode, a resistor, or a serial port.
The first indicator light 801 is used for early warning display of operation of the control chip 10, the second indicator light 802 is used for early warning display of voltage output of the computing power interface 11, red lights 805 and green lights 806 are arranged on the first indicator light 801 and the second indicator light 802, the green lights 806 indicate normal operation, and the red lights 805 indicate abnormal operation. A first switch 807 is used to control the activation or reset of the chip 10 and a second switch 808 is used to activate or reset the controller 2. The TF slot 804 is used for the controller 2 to perform a plug-in card test or storage.
Further, referring to fig. 4, a plurality of force calculating chips 401 are disposed on the force calculating plate 4, and the force calculating chips 401 are sequentially arranged and connected in series.
To sum up, according to the controller stability control system of the equipment, the controller 2 is connected to the external power supply 1 through the main power supply interface 9 and the auxiliary power supply interface 12, the fan 5 with large power consumption is connected through the auxiliary power supply interface 12, so that power consumption fluctuation of the controller 2 is small or the controller chip 10 cannot be interfered, stable power consumption requirements are provided for the controller chip 10, the computing board 4 connected through the computing power interface 11 in a communication mode is stabilized, reasonable power distribution balance use is achieved, timely and effective control over the equipment by the controller 2 is guaranteed, and stability and practicability of the controller 2 are improved.
The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty, and such will fall within the scope of the invention.