CN110888598B - Data storage device, electronic equipment and system capable of remotely controlling electronic equipment - Google Patents

Abstract

The present invention provides a system that can remotely control electronic equipment, which includes a cloud management platform and at least one electronic equipment. The electronic equipment includes a data storage device with network communication function and at least one operating component. The data storage device includes a first The transmission interface, a second transmission interface, a data storage unit and an operation management unit read the data stored in the data storage unit or write data into the data storage unit through the first transmission interface; when the operation management of the data storage device When the unit receives a specific operation instruction sent by the cloud management platform, it transmits the specific operation instruction to the operation component through the second transmission interface, so that the operation component performs the corresponding operation according to the specific operation instruction. Through the design of dual transmission interfaces, the data storage device can not only be used to access data, but can also be used to control the operation of electronic equipment.

Description

Data storage devices, electronic equipment and systems that can remotely control electronic equipment

Technical field

The present invention relates to a system that can remotely control electronic equipment, and in particular, to a system that can utilize a data storage device in the electronic equipment to remotely control the electronic equipment to perform operations.

Background technique

Currently, more advanced electronic devices usually have networking capabilities. The cloud management platform remotely controls electronic devices to perform specific operations through the network. When the cloud management platform controls the electronic device, the cloud management platform sends at least one control command to the electronic device. After the electronic device receives the control command, the operating system of the electronic device requires the components inside the electronic device to perform corresponding operations based on the control command transmitted by the cloud management platform.

Here, in the past, when the cloud management platform controlled the electronic device, the operating system of the electronic device was required to assist in processing the control instructions sent by the cloud management platform. Once the operating system of an electronic device crashes or fails, the administrator of the cloud management platform cannot perform any operations on the electronic device. They can only wait for the engineering staff to go to the installation location of the electronic device to repair the operating system of the electronic device. OK. Furthermore, in order to achieve the purpose of remote control, an additional network communication device must be installed inside the electronic device, which will increase the hardware cost of the electronic device.

Contents of the invention

One object of the present invention is to provide a data storage device. The data storage device includes a first transmission interface and a second transmission interface. The first transmission interface is a transmission interface that complies with the data transmission standard specification. Through the first transmission interface, The transmission interface reads data stored in the data storage device or writes data to the data storage device. The second transmission interface is a transmission interface that controls the operation of an electronic device and is used to transmit an operation command to an electronic device to control the electronic device. When the device performs a corresponding operation, through the design of the dual transmission interface, the data storage device can not only be used to access data, but can also be used to control the operation of the electronic device.

One object of the present invention is to provide an electronic device that is provided with a data storage device. The data storage device is a data storage device with a network communication function and includes a first transmission interface and a second transmission interface. The electronic device uses The first transmission interface of the data storage device reads the data required for operation stored in the data storage device or uses the first transmission interface of the data storage device to store the data generated by its operation in the data storage device; furthermore, the remote The administrator sends a specific operation command to the data storage device of the electronic device through the network. After receiving the specific operation command, the data storage device sends the specific operation command to the operating component of the electronic device through the second transmission interface to facilitate the operation of the electronic device. The component performs a corresponding operation according to specific operation instructions; here, the remote administrator can remotely control the electronic equipment to perform specific operations through the existing data storage device in the electronic equipment.

One object of the present invention is to provide a system that can remotely control electronic equipment. The system includes a cloud management platform and at least one electronic equipment. The electronic equipment includes a data storage device and at least one operating component. The data storage device has network communication capabilities. The function includes a first transmission interface and a second transmission interface. The administrator of the cloud management platform transmits a specific operation command to the data storage device of the electronic device through the network. After the data storage device receives the specific operation command, it passes the second transmission interface. The transmission interface transmits specific operating instructions to the operating component of the electronic device, so that the operating component of the electronic device performs a restart of the electronic device, a data collection in the production process, an update of a production program, or other specific purposes according to the specific operating instructions. operation.

In order to achieve the above object, the present invention provides a data storage device, including: a first transmission interface; a second transmission interface; a data storage unit including a controller and a plurality of flash memories, the controller is connected to the first transmission interface and a plurality of flash memories. The flash memory reads data stored in the flash memory or writes data to the flash memory through the first transmission interface; and an operation management unit includes a microprocessor and a network communication component, and the microprocessor is connected to the second transmission interface and the network communication component. , the microprocessor is connected to at least one electronic device via the second transmission interface; wherein, when the operation management unit receives at least one specific operation instruction via the network communication component, the microprocessor of the operation management unit transmits the specific operation instruction via the second transmission interface. The operation instruction is sent to the electronic device, and the electronic device performs a specific operation according to the specific operation instruction.

In an embodiment of the present invention, the first transmission interface is a transmission interface that complies with the SATA transmission specification, the PCIe transmission specification or the M.2 transmission specification.

In one embodiment of the present invention, the second transmission interface is a transmission interface that complies with industrial communication transmission standards, Ethernet communication transmission standards, or input-output transmission standards.

In an embodiment of the present invention, the second transmission interface is a transmission interface of serial bus, CAN bus, Ethernet, SPI, PoE or GPIO.

In one embodiment of the present invention, the microprocessor of the operation management unit defines at least one control pin from the pins of the second transmission interface. The control pin is a pin that conforms to a specific form of transmission specification. The microprocessor transmits specific operating instructions to the electronic device in a specific form of transmission specification through the control pin.

In one embodiment of the present invention, the data storage device is a device provided in an electronic device or a device independent of the electronic device.

In one embodiment of the present invention, the network communication component is a WiFi communication component, an Ethernet communication component or a 3G, 4G or 5G communication component.

The present invention also provides an electronic device, including: at least one operating component; and a data storage device including: a first transmission interface; a second transmission interface; and a data storage unit including a controller and a plurality of flash memories. , the controller is connected to the first transmission interface and the flash memory, and the electronic device reads data stored in the flash memory or writes data to the flash memory through the first transmission interface; and an operation management unit includes a microprocessor and a network communication component, the microprocessor The processor is connected to the second transmission interface and the network communication component, wherein the data storage device is connected to the operating component through the second transmission interface; wherein, when the operation management unit receives at least one specific operation instruction through the network communication component, the operation management unit The microprocessor transmits specific operating instructions to the operating component through the second transmission interface, and the operating component performs a specific operation according to the specific operating instructions.

The present invention also provides a system that can remotely control electronic equipment, including: a cloud management platform, including a management interface; and at least one electronic equipment, each electronic equipment including: at least one operating component; and a data storage device, including : a first transmission interface; a second transmission interface; and a data storage unit, including a controller and a plurality of flash memories, the controller is connected to the first transmission interface and the flash memory, and the electronic device reads the data stored in the flash memory through the first transmission interface data or write data to the flash memory; and an operation management unit, including a microprocessor and a network communication component, the microprocessor is connected to the second transmission interface and the network communication component, wherein the data storage device is connected to the cloud through the network communication component Management platform, the data storage device is connected to the operating component through the second transmission interface; wherein, the cloud management platform uses the management interface to send a specific operating command to the data storage device of the electronic device, and the operation management unit of the data storage device receives the specific operating command through the network communication component. and transmit the specific operation instruction to the operation component through the second transmission interface, and the operation component performs a specific operation according to the specific operation instruction.

In one embodiment of the present invention, the microprocessor of the operation management unit is equipped with an embedded system, and the operation management unit monitors the operation of the electronic device through the embedded system.

In an embodiment of the present invention, the operation command issued by the cloud management platform is a reset operation command, and the operation component is a reset switch. After receiving the reset operation command, the operation management unit of the data storage device passes the first reset operation command. The second transmission interface transmits the reset operation instruction to the operation component, and the operation component performs a power-on operation of the electronic device according to the reset operation instruction.

Description of the drawings

1A is a three-dimensional structural view of the data storage device of the present invention from a first perspective.

1B is a three-dimensional structural view of the data storage device of the present invention from a second perspective.

FIG. 2 is an architectural diagram of a system that can remotely control the operation of electronic equipment according to an embodiment of the present invention.

FIG. 3 is a circuit diagram of an application embodiment of the data storage device of the present invention.

FIG. 4A is a pin structure diagram of an embodiment of the second transmission interface of the data storage device of the present invention.

FIG. 4B is a pin structure diagram of the second transmission interface of the data storage device according to another embodiment of the present invention.

Figure 5 is a circuit diagram of another application embodiment of the data storage device of the present invention.

FIG. 6 is a circuit diagram of another application embodiment of the data storage device of the present invention.

FIG. 7 is a circuit diagram of another application embodiment of the data storage device of the present invention.

FIG. 8 is an architectural diagram of a system that can remotely control the operation of electronic equipment according to another embodiment of the present invention.

Description of main component symbols:

10 data storage device 11 first transmission interface

12 Second transmission interface 121 control pin

122 control pin 123 control pin

13 Data storage unit 131 Flash memory

133 Controller 15 Operation Management Unit

151 Microprocessor 152 Embedded system

1521 Crash message 153 Network communication component

20 Electronic equipment 21 Operating components

211 Collect information 212 Collect information

22 Non-volatile memory 221 Food preparation program files

300 System 301 Operation Instructions

302 Operation Instructions 303 Operation Instructions

304 Operation command 3041 Program update file

30 Cloud management platform 31 Management interface

350 system

Detailed ways

Please refer to FIGS. 1A and 1B , which are respectively a first perspective structural view and a second perspective structural view of a three-dimensional structure of the data storage device of the present invention. The data storage device 10 of the present invention can also be a solid state disk (Solid State Disk, SSD). As shown in FIG. 1A and FIG. 1B , the data storage device 10 is a data storage device with dual transmission interfaces. A first transmission interface 11 is provided on the front edge of the body, and a second transmission interface 12 is provided on the rear edge of the body. The first transmission interface 11 may also be a transmission interface that complies with the SATA transmission specification, PCIe transmission specification or M.2 transmission specification. The first transmission interface 11 is used to read data stored in the data storage device 10 or to write data into the data storage device 10 .

In an embodiment of the present invention, the second transmission interface 12 can also be a transmission interface that complies with industrial communication transmission standards, such as: RS232 serial bus, RS482/485 serial bus or CAN (Controller Area Network) bus. Transmission interface. Alternatively, in another embodiment of the present invention, the second transmission interface 12 may also be a transmission interface that complies with Ethernet communication transmission specifications, such as an Ethernet or PoE transmission interface. Alternatively, in another embodiment of the present invention, the second transmission interface 12 may also be a transmission interface that complies with input and output transmission specifications, such as a GPIO (General Purpose Input/Output) transmission interface. In the present invention, the second transmission interface 12 is a control interface for transmitting relevant instructions or signals to control an electronic device.

Please refer to FIG. 2 and FIG. 3 , which are respectively an architecture diagram of an embodiment of a system that can remotely control the operation of electronic equipment according to the present invention and a circuit diagram of an application embodiment of a data storage device of the present invention. As shown in Figures 2 and 3, the system 300 of the present invention includes at least one electronic device 20 and a cloud management platform 30. The data storage device 10 can also be provided in the electronic device 20 .

The data storage device 10 includes a first transmission interface 11 , a second transmission interface 12 , a data storage unit 13 and an operation management unit 15 . The data storage unit 13 includes a plurality of flash memories 131 and a controller 133. The controller 133 is connected to the first transmission interface 11 and the flash memory 131. The electronic device 20 reads data required for operation from the flash memory 131 of the data storage device 10 through the first transmission interface 11 or writes data generated during operation into the flash memory 131 of the data storage device 10 through the first transmission interface 11 . Flash memory 131.

The operation management unit 15 includes a microprocessor 151. In one embodiment of the present invention, the microprocessor 151 is a chip with network communication function, and a network communication component 153 is integrated in the microprocessor 151; or, in another embodiment of the present invention, the microprocessor 151 and the network The communication components 153 are independent components. The microprocessor 151 is connected to the second transmission interface 12 and the network communication component 153 . The microprocessor 151 builds an embedded system 152, which is a system based on Linux or RTOS (such as TinyOS). The operation management unit 15 monitors the operation of the electronic device 20 via the embedded system 152 . Furthermore, the operation management unit 15 is connected to the cloud management platform 30 via the network communication component 153 . The network communication component 153 can also be a WiFi communication component, an Ethernet communication component, a 3G, 4G or 5G communication component or other network-connectable communication components.

The electronic device 20 includes at least one operating component 21 . The microprocessor 151 of the operation management unit 15 is connected to a port on the motherboard of the electronic device 20 through the second transmission interface 12 to electrically connect the operating component 21 . When the administrator of the cloud management platform 30 wants to control the electronic device 20 to perform a specific operation, a specific operation command 301/302/303/304 is sent to the electronic device 20 through a management interface 31. The management interface 31 may also be an application programming interface (WEB App) in the form of a web page. After the operation management unit 15 receives the specific operation instructions 301/302/303/304 issued by the cloud management platform 30 through the network communication component 153, the microprocessor 151 of the operation management unit 15 transmits the specific operation through the second transmission interface 12 Instructions 301/302/303/304 are sent to the operation component 21 to require the operation component 21 to perform specific operations according to the specific operation instructions 301/302/303/304.

Further, as shown in FIG. 4A , the second transmission interface 12 of the data storage device 10 of the present invention includes a plurality of pins, such as pins (1) to (20). In an embodiment of the present invention, the microprocessor 151 of the operation management unit 15 defines at least one control pin 121 from the pins of the second transmission interface 12, such as pins (3), (4), (8), (9) is defined as control pin 121. Moreover, the control pin 121 is defined by the microprocessor 151 of the operation management unit 15 as a pin that conforms to a specific form of transmission specification. For example, the control pin 121 is defined by the microprocessor 151 of the operation management unit 15 as a pin that conforms to RS232. The pin for the transmission specification. When the microprocessor 151 of the operation management unit 15 receives the operation instruction 301/302/303/304 issued by the cloud management platform 30, it will transmit the operation instruction 301/302/303/304 in a specific form to the electronic device 20 .

Alternatively, in another embodiment of the present invention, as shown in FIG. 4B , the microprocessor 151 of the operation management unit 15 can define control pins 121 and 122 of various forms of transmission specifications from the pins of the second transmission interface 12 , 123, for example: pins (3), (4), (8), (9) are defined as the first form of control pins 121, and the first form of control pins 121 transmit the operation command 301 according to the RS232 transmission specification. /302/303/304 to the electronic device 20, the pins (12), (13), (17), and (18) are defined as the second form of control pins 122, and the second form of control pins 122 are CAN The bus transmission specification transmits the operation instructions 301/302/303/304 to the electronic device 20. The pins (14), (15), (19), and (20) are defined as the third form of control pins 123. The third form The control pin 123 transmits the operation instructions 301/302/303/304 to the electronic device 20 according to the Ethernet bus transmission specification. Therefore, when the microprocessor 151 of the operation management unit 15 receives the operation instructions 301/302/303/304 issued by the cloud management platform 30, it will select the appropriate control pin 121/122 with the transmission specification that can be recognized by the electronic device 20 /123 transmits the operation instructions 301/302/303/304 to the electronic device 20.

Continuing, in an application embodiment of the present invention, the electronic device 20 is a computer device, and the operating component 21 is a reset switch provided on the circuit board of the electronic device 20 . As shown in FIG. 3 , when the embedded system 152 of the operation management unit 15 of the data storage device 10 monitors that the electronic device 20 crashes, it will actively report a crash message 1521 to the cloud management platform 30 . When the administrator of the cloud management platform 30 receives the crash message 1521, he sends a reset operation command 301 to the data storage device 10 of the electronic device 20 through the management interface 31. After receiving the reset operation instruction 301, the operation management unit 15 of the data storage device 10 transmits the reset operation instruction 301 to the operation component 21 through the second transmission interface 12. The operation component 21 executes the electronic device according to the reset operation instruction 301. A restart operation of 20 is performed so that the electronic device 20 can resume normal operation.

Or, in another application embodiment of the present invention, the electronic device 20 is a CNC (Computer Numerical Control) machine tool used to produce objects, and the operating component 21 is a vibration measuring device, such as a vibration sensor. As shown in FIG. 5 , when the administrator of the cloud management platform 30 wants to monitor the production process of the electronic device 20 , a production status operation command 302 is sent to the data storage device 10 of the electronic device 20 through the management interface 31 . After receiving the operation instruction 302 of the production status, the operation management unit 15 of the data storage device 10 transmits the operation instruction 302 of the production status to the operation component 21 through the second transmission interface 12. The operation component 21 controls the electronic equipment according to the operation instruction 302 of the production status. 20 The vibration generated during the production process is measured and a collection message 211 containing vibration data is generated and sent to the data storage device 10 . After receiving the collection message 211 through the second transmission interface 12 , the microprocessor 151 of the data storage device 10 further transmits the collection message 211 to the cloud management platform 30 . The cloud management platform 30 analyzes the vibration data in the collected message 211 to identify whether the vibration generated during the production process of the electronic device 20 is within an allowable vibration range. If the cloud management platform 30 learns from the analysis of the collected messages 211 that the vibration generated during the production process of the electronic device 20 has exceeded the allowable vibration range, the manager of the cloud management platform 30 will notify the staff of the electronic device 20 about the electronic device. 20 workpieces (such as cutting tools, spindles, bearings) are adjusted. In this way, the cloud management platform 30 monitors the production status data (such as flutter data) of the electronic equipment 20 during production through the data storage device 10, so as to require the staff to timely adjust the electronic equipment 20 when a large change in the production status data is monitored. workpiece to prevent the workpiece of the electronic device 20 from being damaged during the production process and affecting the accuracy of the output object.

In yet another application embodiment of the present invention, the electronic device 20 is a robotic arm for clamping an object, and the operating component 21 is an angle and displacement measuring device. As shown in FIG. 6 , when the administrator of the cloud management platform 30 wants to monitor whether the electronic device 20 is accurately rotated and displaced during the production process, a motion monitoring operation command 303 is sent to the electronic device 20 via the management interface 31 . Storage device 10. After receiving the action monitoring operation instruction 303, the operation management unit 15 of the data storage device 10 transmits the action monitoring operation instruction 303 to the operation component 21 through the second transmission interface 12. The operation component 21 controls the electronic device according to the action monitoring operation instruction 303. 20 The rotation angle and displacement performed during the production process are measured to generate a collection message 212 including an action signal and send the message 212 to the data storage device 10 . After receiving the collection message 212 through the second transmission interface 12 , the microprocessor 151 of the data storage device 10 sends the collection message 212 to the cloud management platform 30 . The cloud management platform 30 analyzes the action signals in the collected information 212 to identify whether the rotation angle and displacement performed during the production process of the electronic device 20 are consistent with the preset rotation angle and displacement. If the cloud management platform 30 analyzes the action signals in the collected message 212 and determines that there are errors between the rotation angle and displacement of the electronic device 20 and the preset rotation angle and displacement, the rotation mechanism (such as the joint axis) of the electronic device 20 can be known. ) may also cause wear and tear. The administrator of the cloud management platform 30 will notify the staff of the electronic device 20 to check or replace the rotating mechanism of the electronic device 20 . In this way, the cloud management platform 30 remotely collects the movements of the electronic equipment 20 during production through the data storage device 10, so as to require the staff to timely replace the rotating mechanism of the electronic equipment 20 when an error is detected in the movement of the electronic equipment 20, causing the electronic equipment to fail. The device 20 is capable of accurately gripping objects and delivering the gripped objects to the correct location.

In another application embodiment of the present invention, as shown in Figure 7, the electronic device 20 is a food production equipment, the operating component 21 is a microcomputer control system for making food and its production components, and the electronic device 20 further includes a non-functional The flexible memory 22 and the non-volatile memory 22 record a food preparation program file 221. When the administrator of the cloud management platform 30 wants to update the food preparation program of the electronic device 20, a program update operation instruction 304 is sent to the data storage device 10 of the electronic device 20 through the management interface 31. The program update operation instruction 304 will include a program update file 3041. After receiving the program update operation instruction 304, the operation management unit 15 of the data storage device 10 transmits the program update operation instruction 304 to the operation component 21 through the second transmission interface 12. The operation component 21 updates the program according to the program update operation instruction 304. File 3041 to update the food preparation program file 221. Afterwards, the operating component 21 will be able to execute the production of food with the updated food preparation program file 221 . In this way, the cloud management platform 30 remotely updates the food preparation program of the electronic device 20 through the data storage device 10 to increase the convenience of updating the food preparation program.

In summary, through the design of the dual transmission interface of the data storage device 10 of the present invention, the data storage device 10 can not only be used for general data access, but can also be used by a remote administrator to control the operation of the electronic device 20 . Therefore, the administrator of the cloud management platform 30 can remotely issue specific operation-related instructions to the electronic device 20 through the data storage device 10 to control the electronic device 20 to perform a specific operation. Furthermore, the above four application embodiments are only part of the implementation aspects of the present invention. In actual application, the cloud management platform 30 of the present invention can monitor the production status and operation of the electronic device 20 according to the machine type of the electronic device 20 . According to the status and/or operating environment, different types of operating instructions are sent to the data storage device 10 of the electronic device 20 so that the electronic device 20 performs corresponding operations according to the requirements of the operating instructions.

Please refer to FIG. 8 , which is an architecture diagram of a system that can remotely control the operation of electronic equipment according to another embodiment of the present invention. In the system 300 of the above embodiment, the data storage device 10 is a device installed in the electronic device 10; in contrast, in the system 350 of this embodiment, the data storage device 10 is a device independent of the electronic device 20. The storage device 20 is electrically connected to the operating component 21 of the electronic device 20 through the second transmission interface 12 which is inserted into a port protruding outside the casing of the electronic device 20 . Therefore, the operating component 21 of the electronic device 20 receives the operating instructions 301/302/303/304 remotely sent by the cloud management platform 30 through the external data storage device 10 and performs corresponding operations according to the operating instructions 301/302/303/304. .

The above are the preferred embodiments of the present invention and the technical principles used therein. For those skilled in the art, without departing from the spirit and scope of the present invention, any method based on the technical solutions of the present invention is Obvious changes such as equivalent transformations and simple substitutions all fall within the scope of the present invention.

Claims (20)

1. A data storage device, the data storage device is a solid state hard drive, characterized in that it includes: a first transmission interface; a second transmission interface; A data storage unit includes a controller and a plurality of flash memories. The controller is connected to the first transmission interface and the flash memory, and reads or writes data stored in the flash memory through the first transmission interface. to said flash memory; and An operation management unit includes a microprocessor and a network communication component. The microprocessor is connected to the second transmission interface and the network communication component. The microprocessor communicates with an electronic device through the second transmission interface. Connecting a port on a motherboard of the device to electrically connect at least one operating component; Wherein, when the operation management unit receives at least one specific operation instruction via the network communication component, the microprocessor of the operation management unit transmits the specific operation instruction to The electronic device and the operating component of the electronic device perform a specific operation according to the specific operating instruction. 2. The data storage device according to claim 1, wherein the first transmission interface is a transmission interface that complies with the SATA transmission specification, PCIe transmission specification or M.2 transmission specification. 3. The data storage device according to claim 1, wherein the second transmission interface is a transmission interface that complies with industrial communication transmission specifications, Ethernet communication transmission specifications, or input and output transmission specifications. 4. The data storage device according to claim 3, wherein the second transmission interface is a transmission interface of serial bus, CAN bus, Ethernet, SPI, PoE or GPIO. 5. The data storage device according to claim 1, wherein the microprocessor of the operation management unit defines at least one control pin from the pins of the second transmission interface, and the control pin The pin is a pin that conforms to a specific form of transmission specification. The microprocessor of the operation management unit transmits the specific operation instruction to the electronic device in the specific form of transmission specification through the control pin. . 6. The data storage device according to claim 1, wherein the data storage device is a device installed in the electronic device or a device independent of the electronic device. 7. The data storage device according to claim 1, wherein the network communication component is a WiFi communication component, an Ethernet communication component or a 3G, 4G or 5G communication component. 8. An electronic device, including: At least one operating component is provided on a motherboard; and A data storage device, the data storage device is a solid state drive, including: a first transmission interface; a second transmission interface; and A data storage unit includes a controller and a plurality of flash memories. The controller is connected to the first transmission interface and the flash memory. The electronic device reads the data stored in the flash memory through the first transmission interface. or writing data to said flash memory; and An operation management unit includes a microprocessor and a network communication component. The microprocessor is connected to the second transmission interface and the network communication component, wherein the data storage device communicates with the second transmission interface through the second transmission interface. Ports on the motherboard are engaged to electrically connect the operating component; Wherein, when the operation management unit receives at least one specific operation instruction via the network communication component, the microprocessor of the operation management unit transmits the specific operation instruction to The operation component performs a specific operation according to the specific operation instruction. 9. The electronic device according to claim 8, wherein the first transmission interface is a transmission interface that complies with SATA transmission specification, PCIe transmission specification or M.2 transmission specification. 10. The electronic device according to claim 8, wherein the second transmission interface is a transmission interface that complies with industrial communication transmission specifications, Ethernet communication transmission specifications, or input and output transmission specifications. 11. The electronic device according to claim 10, wherein the second transmission interface is a transmission interface of serial bus, CAN bus, Ethernet, SPI, PoE or GPIO. 12. The electronic device according to claim 8, wherein the microprocessor of the operation management unit defines at least one control pin from the pins of the second transmission interface, and the control pin The pin is a pin that conforms to a specific form of transmission specification. The microprocessor of the operation management unit transmits the specific operation instruction to the electronic device in the specific form of transmission specification through the control pin. 13. The electronic device according to claim 8, wherein the network communication component is a WiFi communication component, an Ethernet communication component or a 3G, 4G or 5G communication component. 14. A system that can remotely control electronic equipment, characterized by including: a cloud management platform, including a management interface; and At least one electronic device, each electronic device includes: At least one operating component is provided on a motherboard; and A data storage device is a solid state drive, including: a first transmission interface; a second transmission interface; and A data storage unit includes a controller and a plurality of flash memories. The controller is connected to the first transmission interface and the flash memory. The electronic device reads the data stored in the flash memory through the first transmission interface. or writing data to said flash memory; and An operation management unit includes a microprocessor and a network communication component. The microprocessor is connected to the second transmission interface and the network communication component, wherein the data storage device is connected to the network through the network communication component. In the cloud management platform, the data storage device is connected to the port on the motherboard through the second transmission interface and is electrically connected to the operating component; Wherein, the cloud management platform uses the management interface to send a specific operation instruction to the data storage device of the electronic device, and the operation management unit of the data storage device receives the operation instruction through the network communication component. A specific operation instruction is sent to the operation component through the second transmission interface, and the operation component performs a specific operation according to the specific operation instruction. 15. The system of claim 14, wherein the microprocessor of the operation management unit is equipped with an embedded system, and the operation management unit uses the embedded system to Monitor the operation of said electronic equipment. 16. The system of claim 14, wherein the operating command issued by the cloud management platform is a reset operating command, and the operating component is a reset switch. After receiving the reset operation instruction, the operation management unit of the data storage device transmits the reset operation instruction to the operation component through the second transmission interface. The reset operation instruction executes a restart operation of the electronic device. 17. The system of claim 14, wherein the first transmission interface is a transmission interface that complies with the SATA transmission specification, the PCIe transmission specification, or the M.2 transmission specification. 18. The system of claim 14, wherein the second transmission interface is a transmission interface that complies with industrial communication transmission specifications, Ethernet communication transmission specifications, or input and output transmission specifications. 19. The system for remotely controlling electronic equipment according to claim 18, wherein the second transmission interface is a transmission interface of serial bus, CAN bus, Ethernet, SPI, PoE or GPIO. 20. The system of claim 14, wherein the microprocessor of the operation management unit defines at least one control pin from the pins of the second transmission interface. , the control pin is a pin that conforms to a specific form of transmission specification, and the microprocessor of the operation management unit transmits the specific operation instruction to the specific form of transmission specification through the control pin. the electronic device.