CN219497072U - Device for implementing SSD disk test management by using NFC electronic tag - Google Patents

Abstract

The utility model belongs to the technical field of SSD disk test management jigs, and particularly provides a device for implementing SSD disk test management by applying an NFC electronic tag, which comprises an adapter card and an NFC read-write card, wherein the front surface of the adapter card is provided with a U2 interface for connecting the SSD disk, the middle part of the adapter card is hollowed out, and the back surface of the SSD disk is provided with the electronic tag; an NFC read-write module is arranged on the NFC read-write card; the NFC read-write card is arranged on the back of the adapter card through the copper column, and the NFC read-write module is opposite to the electronic tag at the hollowed-out position of the adapter card. The electronic tag is added on the SSD disk to realize the identification of the disk, the middle part of the adapter plate is hollowed out, the electronic tag on the SSD is exposed, and meanwhile, the NFC read-write card is arranged above the adapter plate to realize the read-write management of the electronic tag of the disk. The identity recognition problem is completely eradicated, the management cost is saved, the realization cost is low, and the benefit is large.

Description

Device for implementing SSD disk test management by using NFC electronic tag

Technical Field

The utility model relates to the technical field of SSD disk test management jigs, in particular to a device for implementing SSD disk test management by applying NFC electronic tags.

Background

Under different scenes such as development, test, production management and the like, when operations such as batch test, firmware burning, warehouse entry and exit management and the like occur in some embedded systems such as SSD disks, problems such as disordered equipment management and incapability of identifying fixed individuals often occur due to the functional perfection or application specificity of the system.

In particular, if the disc is in a bare plate shape in the development stage, the disc is generally distinguished by a sticker or a handwritten symbol. For NVME discs, although MN and SN are used to identify the identity of the disc, it is still indeterminate in the powered-down state. If the disc is tested on the server, the disc can be determined according to the slot of the pcie and the bus id acquired in the system, but once the disc is pulled out, the problem that the disc cannot be identified still exists, and the disc can be distinguished only by means of a sticker or a mark, and the method is often unreliable. Before the embedded product is produced, the problem is accompanied by the mounting of the shell and the application of the label.

NFC: near Field Communication near field communication, NFC for short. NFC is integrated and evolved by a non-contact Radio Frequency Identification (RFID) and interconnection technology, and through integrating functions of an induction card reader, an induction card and point-to-point communication on a single chip, mobile terminal is utilized to realize applications such as mobile payment, electronic ticketing, access control, mobile identity recognition and anti-counterfeiting. Electronic tag: the passive radio frequency tag is not provided with a built-in battery, and when the passive radio frequency tag is out of the reading range of the reader, the electronic tag is in a passive state, and when the passive radio frequency tag is in the reading range of the reader, the electronic tag extracts power required by the work of the electronic tag from radio frequency energy emitted by the reader. The electronic tag generally adopts a reflection modulation mode to complete the transmission of the electronic tag information to the reader.

Disclosure of Invention

If the disc is tested on the server, the disc can be determined according to the slot of the pcie and the bus id acquired in the system, but once the disc is pulled out, the problem that the disc cannot be identified still exists, and the disc can be distinguished only by means of a sticker or a mark, and the method is often unreliable. Before the embedded product is produced, the problem is always accompanied with the mounting of the shell and the labeling, and the utility model provides a device for implementing SSD disk test management by applying the NFC electronic label.

The technical scheme of the utility model provides a device for implementing SSD disk test management by applying an NFC electronic tag, which comprises an adapter card and an NFC read-write card, wherein the front surface of the adapter card is provided with a U2 interface for connecting the SSD disk, the middle part of the adapter card is hollowed out, and the back surface of the SSD disk is provided with the electronic tag;

an NFC read-write module is arranged on the NFC read-write card;

the NFC read-write card is arranged on the back of the adapter card through the copper column, and the NFC read-write module is opposite to the electronic tag at the hollowed-out position of the adapter card.

The electronic tag is added on the SSD disk to realize the identification of the disk, the middle part of the adapter plate is hollowed out, the electronic tag on the SSD is exposed, and meanwhile, the NFC read-write card is arranged above the adapter plate to realize the read-write management of the electronic tag of the disk.

As the optimization of the technical scheme of the utility model, copper column mounting holes are arranged on the NFC read-write card, the adapter card and the SSD disk, and the copper column mounting holes on the SSD disk are aligned with the adapter card copper column mounting holes after the SSD disk is connected with the U2 interface on the adapter card.

The copper columns are used for connecting the boards, so that the distance between the boards can be adjusted according to the length of the copper columns.

As the optimization of the technical scheme of the utility model, the NFC read-write card is arranged at the uppermost layer, the NFC read-write module is arranged at the front of the NFC read-write card, and the front of the NFC read-write card is downwards arranged at the back of the adapter card through the copper column.

The NFC read-write module is an NFC read-write chip, the induction distance is different according to the difference of the selection chip, and the distance between the upper board card and the lower board card is adjusted by selecting the length size of the copper column.

As the optimization of the technical scheme of the utility model, the transfer card is arranged on the second layer, the transfer card is provided with a PCI interface for being inserted into a PC or a server, and the front surface of the transfer card faces downwards when the transfer card is inserted;

the middle part of the adapter card is provided with a rectangular hollow.

And rectangular hollows are formed, so that on one hand, the electronic tag on the SSD disc is exposed, and on the other hand, the SSD disc is also subjected to heat dissipation.

As the optimization of the technical scheme of the utility model, the SSD disc is arranged at the lowest layer, the back face is upward, and the electronic tag at the back face is opposite to the NFC read-write module at the uppermost layer.

The electronic tag is directly stuck on the surface of the SSD disc shell.

As the optimization of the technical scheme of the utility model, the NFC read-write module and the SSD disc are mounted on the adapter card through the copper column and the nut in a matched mode.

As the optimization of the technical scheme of the utility model, a first serial port is arranged on the NFC read-write card, and a second serial port is arranged on the transfer card;

the NFC read-write module is connected with a second serial port on the transfer card through the first serial port.

As the optimization of the technical scheme of the utility model, the front surface of the NFC read-write card is also provided with a cooling fan connected with the first serial port, and the cooling fan is aligned to the SSD disc at the hollowed-out position of the adapter card.

The electronic tag is a passive electronic tag, and the characteristics of the passive electronic tag can not influence the normal work and heat dissipation of the hard disk, and the hard disk can not influence the state of the electronic tag.

From the above technical scheme, the utility model has the following advantages: the electronic tag and the NFC read-write module are combined, so that the identity recognition, transportation and storage management and the like of the embedded equipment are realized. The identity recognition problem is completely eradicated, the management cost is saved, the realization cost is low, and the benefit is large.

In addition, the utility model has reliable design principle, simple structure and very wide application prospect.

It can be seen that the present utility model has outstanding substantial features and significant advances over the prior art, as well as its practical advantages.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic view of the structure of an apparatus according to an embodiment of the present utility model.

Fig. 2 is a schematic front view of a riser card according to one embodiment of the utility model.

FIG. 3 is a schematic diagram of an SSD disk according to one embodiment of the present utility model after the SSD disk is connected to the adapter card.

FIG. 4 is a schematic diagram of the backside of an SSD disk in accordance with one embodiment of the present utility model.

Fig. 5 is a schematic front view of an NFC reader card according to an embodiment of the present utility model.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As shown in fig. 1, 2 and 3, the embodiment of the utility model provides a device for implementing SSD disk test management by using NFC electronic tags, which comprises an adapter card 100 and an NFC read-write card 300, wherein the front surface of the adapter card 100 is provided with a U2 interface 102 for connecting the SSD disk, the middle part of the adapter card is provided with a hollow, and the back surface of the SSD disk 200 is provided with an electronic tag 201;

the NFC read-write card 300 is provided with an NFC read-write module 301;

the NFC read-write card 300 is arranged on the back of the transfer 100 card through the copper column 401, and the NFC read-write module 301 is opposite to the electronic tag 201 at the hollowed-out position of the transfer card.

The electronic tag 201 is added on the SSD disc 200 to realize the identification of the disc, the middle part of the adapter plate 100 is hollowed out, the electronic tag on the SSD is exposed, and meanwhile, the NFC read-write card 300 is arranged above the adapter plate 100 to realize the read-write management of the electronic tag 201 of the SSD disc.

As shown in fig. 1-5, an embodiment of the present utility model provides a device for implementing SSD disk test management by using NFC electronic tags, including an adapter card 100 and an NFC read-write card 300, where a U2 interface 102 for connecting the SSD disk is provided on the front surface of the adapter card 100, a hollow is provided in the middle part of the adapter card, and an electronic tag 201 is provided on the back surface of the SSD disk 200;

the NFC read-write card 300 is provided with an NFC read-write module 301;

the NFC read-write card 300 is arranged on the back of the transfer 100 card through the copper column 401, and the NFC read-write module 301 is opposite to the electronic tag 201 at the hollowed-out position of the transfer card.

Copper column mounting holes 500 are formed in the NFC read-write card 300, the adapter card 100 and the SSD disc 200, and after the SSD disc 200 is connected with the U2 interface 102 on the adapter card 100, the copper column mounting holes on the SSD disc 200 are aligned with the adapter card copper column mounting holes.

The copper columns are used for connecting the boards, so that the distance between the boards can be adjusted according to the length of the copper columns.

The electronic tag 201 is added on the SSD disc 200 to realize the identification of the disc, the middle part of the adapter plate 100 is hollowed out, the electronic tag on the SSD is exposed, and meanwhile, the NFC read-write card 300 is arranged above the adapter plate 100 to realize the read-write management of the electronic tag 201 of the SSD disc.

As shown in fig. 1-5, an embodiment of the present utility model provides a device for implementing SSD disk test management by using NFC electronic tags, including an adapter card 100 and an NFC read-write card 300, where a U2 interface 102 for connecting the SSD disk is provided on the front surface of the adapter card 100, a hollow is provided in the middle part of the adapter card, and an electronic tag 201 is provided on the back surface of the SSD disk 200;

the NFC read-write card 300 is provided with an NFC read-write module 301;

the NFC read-write card 300 is arranged on the back of the transfer 100 card through the copper column 401, and the NFC read-write module 301 is opposite to the electronic tag 201 at the hollowed-out position of the transfer card.

Copper column mounting holes 500 are formed in the NFC read-write card 300, the adapter card 100 and the SSD disc 200, and after the SSD disc 200 is connected with the U2 interface 102 on the adapter card 100, the copper column mounting holes on the SSD disc 200 are aligned with the adapter card copper column mounting holes.

The NFC read/write card 300 is at the uppermost layer, the NFC read/write module 301 is disposed on the front surface of the NFC read/write card 300, and the NFC read/write card 300 is installed on the back surface of the adapter card 100 through the copper pillar 401 facing downwards.

The NFC read-write module is an NFC read-write chip, the induction distance is different according to the difference of the selection chip, and the distance between the upper board card and the lower board card is adjusted by selecting the length size of the copper column.

The adapter card 100 is arranged on the second layer, the adapter card 100 is provided with a PCI interface 101 for being inserted into a PC or a server, and the front surface of the adapter card 100 faces downwards when the adapter card 100 is inserted;

the middle part of the adapter card is provided with a rectangular hollow 103.

Rectangular hollowed-out parts 103 are formed, so that on one hand, the electronic tag 201 on the SSD disc 200 is exposed, and on the other hand, heat dissipation is performed on the SSD disc 200.

The SSD disc 200 is at the lowest layer, the back face is upward, and the electronic tag 201 at the back face is opposite to the NFC read/write module 301 at the uppermost layer.

The electronic tag 301 is directly attached to the outer shell surface of the SSD disc 200.

The NFC read-write module and the SSD disc are mounted on the adapter card 100 by the copper pillar 401 and the nut 402 in cooperation.

As shown in fig. 1-5, an embodiment of the present utility model provides a device for implementing SSD disk test management by using NFC electronic tags, including an adapter card 100 and an NFC read-write card 300, where a U2 interface 102 for connecting the SSD disk is provided on the front surface of the adapter card 100, a hollow is provided in the middle part of the adapter card, and an electronic tag 201 is provided on the back surface of the SSD disk 200;

the NFC read-write card 300 is provided with an NFC read-write module 301;

the NFC read-write card 300 is arranged on the back of the transfer 100 card through the copper column 401, and the NFC read-write module 301 is opposite to the electronic tag 201 at the hollowed-out position of the transfer card.

Copper column mounting holes 500 are formed in the NFC read-write card 300, the adapter card 100 and the SSD disc 200, and after the SSD disc 200 is connected with the U2 interface 102 on the adapter card 100, the copper column mounting holes on the SSD disc 200 are aligned with the adapter card copper column mounting holes.

The NFC read/write card 300 is at the uppermost layer, the NFC read/write module 301 is disposed on the front surface of the NFC read/write card 300, and the NFC read/write card 300 is installed on the back surface of the adapter card 100 through the copper pillar 401 facing downwards.

The NFC read-write module is an NFC read-write chip, the induction distance is different according to the difference of the selection chip, and the distance between the upper board card and the lower board card is adjusted by selecting the length size of the copper column.

The adapter card 100 is arranged on the second layer, the adapter card 100 is provided with a PCI interface 101 for being inserted into a PC or a server, and the front surface of the adapter card 100 faces downwards when the adapter card 100 is inserted;

the middle part of the adapter card is provided with a rectangular hollow 103.

Rectangular hollowed-out parts 103 are formed, so that on one hand, the electronic tag 201 on the SSD disc 200 is exposed, and on the other hand, heat dissipation is performed on the SSD disc 200.

The SSD disc 200 is at the lowest layer, the back face is upward, and the electronic tag 201 at the back face is opposite to the NFC read/write module 301 at the uppermost layer.

The electronic tag 301 is directly attached to the outer shell surface of the SSD disc 200.

The NFC read-write module and the SSD disc are mounted on the adapter card 100 by the copper pillar 401 and the nut 402 in cooperation.

The NFC read-write card is provided with a first serial port, and the adapter card is provided with a second serial port;

the NFC read-write module is connected with a second serial port on the transfer card through the first serial port.

The front of the NFC read-write card is also provided with a cooling fan 302 connected with the first serial port, and the cooling fan 302 is aligned to the SSD disc at the rectangular hollowed-out 103 position of the adapter card.

The electronic tag is a passive electronic tag, and the characteristics of the passive electronic tag can not influence the normal work and heat dissipation of the hard disk, and the hard disk can not influence the state of the electronic tag.

Although the present utility model has been described in detail by way of preferred embodiments with reference to the accompanying drawings, the present utility model is not limited thereto. Various equivalent modifications and substitutions may be made in the embodiments of the present utility model by those skilled in the art without departing from the spirit and scope of the present utility model, and it is intended that all such modifications and substitutions be within the scope of the present utility model/be within the scope of the present utility model as defined by the appended claims. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. The device for implementing SSD disk test management by using NFC electronic tag is characterized by comprising an adapter card and an NFC read-write card, wherein the front surface of the adapter card is provided with a U2 interface for connecting the SSD disk, the middle part of the adapter card is hollowed out, and the back surface of the SSD disk is provided with the electronic tag;

an NFC read-write module is arranged on the NFC read-write card;

the NFC read-write card is arranged on the back of the adapter card through the copper column, and the NFC read-write module is opposite to the electronic tag at the hollowed-out position of the adapter card.

2. The device for implementing SSD disk test management by using NFC electronic tag according to claim 1, wherein copper column mounting holes are formed on the NFC read-write card, the adapter card and the SSD disk, and the copper column mounting holes on the SSD disk are aligned with the adapter card copper column mounting holes after the SSD disk is connected with the U2 interface on the adapter card.

3. The device for implementing SSD disk test management by using NFC electronic tag according to claim 2, wherein the NFC read-write card is at the uppermost layer, the NFC read-write module is disposed at the front of the NFC read-write card, and the NFC read-write card is mounted at the back of the adapter card with its front facing downwards through a copper column.

4. The device for implementing SSD disk test management by using NFC electronic tag according to claim 3, wherein the adapter card is on the second layer, the adapter card is provided with a PCI interface for plugging in a PC or a server, and the front face of the adapter card faces downward when the adapter card is plugged in;

the middle part of the adapter card is provided with a rectangular hollow.

5. The device for implementing SSD disk test management by NFC electronic tag of claim 4, wherein the SSD disk is at a lowest layer, a back surface is facing up, and the electronic tag at the back surface is facing to the NFC read-write module at the uppermost layer.

6. The device for implementing SSD disk test management using NFC electronic tags according to claim 5, wherein the NFC read-write module and the SSD disk are mounted on the adapter card by copper posts and nuts.

7. The device for implementing SSD disk test management using NFC electronic tags according to claim 6, wherein the NFC read-write card is provided with a first serial port and the adapter card is provided with a second serial port;

the NFC read-write module is connected with a second serial port on the transfer card through the first serial port.

8. The device for implementing SSD disk test management by NFC electronic tag according to claim 7, wherein a radiator fan connected with the first serial port is further disposed on the front surface of the NFC read-write card, and the radiator fan is aligned to the SSD disk at the hollowed-out position of the adapter card.