CN1758260A - System and method for RFID electronic tag - Google Patents

Abstract

The invention relates to a system and a method of RFID chip part mounting and a computer redable medium adopted by the invention. The RFID chip part mounting system comprises: a RFID module transferring device which can move a first substrate provided with a plurality of RFID modules; a RFID antenna transferring device which can move a second substrate provided with a plurality of RFID antennas and aiming to the first substrate; and a joining device near the first substrate, which can separate the RFID modules from the first substrate and join the RFID modules to the RFID antennas of the second substrate. The substrates can be reel substrates and the RFID chip parts are formed in parallel. The system also comprises a RFID module testing device to test the RFID module in parallel. The invention can reduce the cost of manufacturing the RFID chip part and the complexity of the RFID chip part mounting, and increase capacity, and by the single direction moving of the course reduce the cost of equipment and improve operating speed.

Description

RFID electric label combined system and method

Technical field

(Radio Frequency Identification, RFID) electric label combined system is particularly about the System and method for of the engaging of RFID module and antenna, combination to the invention relates to a kind of radio frequency identification.

Background technology

At radio frequency identification (Radio Frequency Identification, RFID) in the manufacture process of electric label, the higher part of cost is the engaging process between RFID chip and antenna (Antenna), this RFID chip is placed on before being engaged to antenna in the tested RFID module, but this anabolic process generally comprises a plurality of independent step, for example become the tabular form module test, module cutting and from this list block by manually choosing normal module and will this normal module being engaged to antenna on the reel (Reel) etc.; In engaging process, adopt the plane of two-dimensional directional to move at present usually, make that equipment cost is higher and influence operating speed that above reason has caused problems such as existing product cost height, production run complexity.

Summary of the invention

For overcoming the shortcoming of above-mentioned prior art, fundamental purpose of the present invention is to provide a kind of RFID electric label combined system and method, when keeping minimum stock, the requirement that can use particular RFID according to the user and RFID is provided electric label, and this RFID electric label can not contain not the RFID electric label by test.

Another object of the present invention is to provide a kind of RFID electric label combined system and method that makes the cost reduction of making the RFID electric label.

A further object of the present invention is to provide a kind of RFID electric label combined system and method, the complexity of RFID electric label combination is reduced, make its production capacity increase, and because this process is moving of single direction, thereby reduce equipment cost and improve operating speed.

For reaching above-mentioned and other purpose, and radio frequency identification of the present invention (Radio FrequencyIdentification, RFID) the electric label combined system comprises: RFID module transmission parts, its removable first substrate with a plurality of RFID modules; RFID antenna transmission parts, its removable second substrate that has a plurality of RFID antennas and aim at this first substrate; And the fitting piece of contiguous this first substrate, it is used for separating this RFID module from first substrate, and this RFID module is engaged to RFID antenna on this second substrate, and this first and second substrate can be the roll type substrate, and can form the RFID electric label simultaneously; In addition, this system also can comprise RFID module testing spare, is used for this RFID module of concurrent testing.

Radio frequency identification of the present invention (Radio Frequency Identification, RFID) the electric label combined system also can comprise: RFID module transmission parts, removable first substrate with a plurality of RFID modules; RFID module testing spare is adjacent to this RFID module; RFID antenna transmission parts, removable second substrate with a plurality of RFID antennas; Fitting piece is adjacent to this first substrate and second substrate; And control system, be connected with test block with these transmission parts, and comprise a computer-readable media that includes the information indication of instruction, the operation that these medium are carried out according to this control system then comprises: move this first substrate, use this test block to discern normal RFID module, make this this RFID antenna of normal RFID module alignment, form the RFID electric label with this normal RFID module and RFID antenna relative to this test block.

This RFID electric label combined method comprises: the RFID module that obtains on the first volume cartridge type substrate is the information Recognition with normal function; With the RFID antenna on this RFID module alignment of having discerned second roll type substrate; And, on this second roll type substrate, form the RFID electric label by the RFID module of having discerned on this first volume cartridge type substrate and this RFID antenna.

This computer-readable media (Machine-Readable Medium) comprises by the performed operation steps of one or more counters: the RFID module that obtains on the first volume cartridge type substrate is the information Recognition with normal function; With the RFID antenna on this RFID module alignment of having discerned second roll type substrate; And, on this second roll type substrate, form the RFID electric label by the RFID module of having discerned on this first volume cartridge type substrate and this RFID antenna.

This programmable multi-functional RFID chip is deposited on the reel with modular form, the RFID antenna of different size is left in respectively on the different reels, because existing this RFID electric label can be made up apace on the reel, therefore, when keeping minimum stock, can provide RFID electric label according to the requirement that the user uses particular RFID, and, test can be carried out before this RFID module is engaged to this RFID antenna, so that for the user provides a normal RFID electric label, this RFID electric label can not contain the not RFID electric label by testing.

In sum, RFID electric label combined system compared with prior art of the present invention and method can make the cost of making the RFID electric label reduce, and also can reduce the complexity of RFID electric label combination and increase production capacity.Single direction by this process moves (for example, being used for the roll type substrate of RFID module and RFID antenna), but not the plane of X and Y two-dimensional directional moves, and can reduce equipment cost and improve operating speed.This RFID module can be tested before being engaged to the RFID antenna, to guarantee to adopt the fully normal module of function.

Description of drawings

Fig. 1 is the calcspar of RFID electric label combined system of the present invention;

Fig. 2 is the top view of network topology testing spare and the roll type substrate with a plurality of RFID modules;

Fig. 3 is the side view of network topology testing spare and the roll type substrate with a plurality of RFID modules;

Fig. 4 is contiguous fitting piece and the top view with roll type substrate of a plurality of RFID modules;

Fig. 5 has the substrate of RFID module and has the RFID antenna and the top view of the roll type substrate of contiguous fitting piece;

Fig. 6 is the top view with roll type substrate of RFID antenna;

Fig. 7, Fig. 8 are that RFID module and RFID antenna alignment are so that the synoptic diagram of joined in parallel;

Fig. 9, Figure 10 are the synoptic diagram of alignment system after first pack module is engaged to its respective antenna of Fig. 7, Fig. 8;

Figure 11, Figure 12 are that the alignment system of Fig. 7, Fig. 8 is when not engaging bad module and having filled out synoptic diagram when omitting antenna;

Figure 13 is the process flow diagram of combination RFID electric label; And

Figure 14 be have side by side the RFID module and the embodiment synoptic diagram of the roll type substrate of RFID antenna.

Embodiment

Embodiment

Below by particular specific embodiment explanation embodiments of the present invention.

Fig. 1 is radio frequency identification of the present invention (Radio Frequency Identification, RFID) calcspar of electric label combined system.This system comprises: RFID module transmission parts 100, RFID antenna transmission parts 120 and fitting piece 150, also can select to comprise RFID module testing spare 160, control system 170.

These RFID module transmission parts 100 removable first substrates with a plurality of RFID modules, this RFID module can comprise conductive pattern and engage integrated circuit (IC) chip that this chip comprises radio frequency (RF) interface, logic control circuit and storer.This RFID module can be connected to tuned (Tuned) antenna to form label by (electric capacity or resistance).

Single RFID modular design can be used for multiple label antenna, and can programme according to the different application of RFID electric label.Utilize this RFID module that this RFID chip join to antenna can be reduced whole cost and storage, and can enhance productivity.This RFID module can be made before making the RFID antenna, and deposited in order to use in the future in advance.This RFID module bearing substrate can be the roll type substrate, and this RFID module transmission parts can comprise the reel 110 of this roll type substrate that is used to reel.Therefore, this RFID module only need single direction move can be tested and be engaged to this RFID antenna (this single direction be meant in the three dimensions of this label combined system with the direction of a plurality of reality forward with the direction that moves backward).

These RFID antenna transmission parts 120 removable second substrates with a plurality of dissimilar RFID antennas.Removable this RFID antenna of this RFID antenna transmission parts also makes it aim at the RFID module, so that this RFID module is engaged to this RFID antenna in the Automatic Combined process.This makes RFID module and RFID antenna alignment and is bonded together subsequently to form the automatic system of RFID label, can significantly reduce the manufacturing cost of RFID electric label, makes this RFID electric label design and stock control that very big dirigibility is arranged simultaneously.

This automatic RFID electric label combined system can be a complete mechanical formula system, also can use data processing unit system as described later.In complete mechanical formula system, can provide different standard specifications that system is set, to be used for the different spacing ratio (Pitch Ratios) between this RFID module RFID antenna different with this.In addition, this RFID antenna bearing substrate can be the roll type substrate, and this RFID antenna transmission parts can comprise the reel 130 of this roll type substrate that is used to reel, and a plurality of steering assembly 140 (for example, cylinder or runner etc.).

This fitting piece 150 can separate this RFID module from first substrate, and this RFID module is engaged to RFID antenna on this second substrate.This fitting piece 150 can comprise: cutter, registration arm and/or sticker coated article.This sticker can with this separate modules be engaged to antenna, also can adopt the joining technique of other replacement, for example the ultrasound wave connection method that two plastics can be linked together.In addition, as described later, but these fitting piece 150 The parallel combined RFID electric labels.

This fitting piece 150 can comprise an extra cutter, and part is separated this RFID module to carry out the cutting first time, and by follow-up last cutting, from first substrate this RFID module and other modules is separated fully.This cuts for the first time also and can carry out in this system but not in this fitting piece 150 in advance, and this cutter for example can adopt steel knife (Steel Rolled) cut, affix one's seal formula (Stamp) cutting, cut or other cutting technique that roll.

This test block 160 can be used for discerning normal RFID module before being engaged to this RFID antenna, this cuts for the first time and can be used for all RFID modules, this cuts for the second time and then only is used for normal RFID module, handles so that bad module is stayed on this substrate reel again.

This control system 170 can be a data handling system, for example one or more programming devices, it comprises computer-readable media 175 (Machine-Readable Medium), the information indication of these computer-readable media 175 recording instructions, and this instruction is carried out by control system and is fulfiled assignment.But these medium 175 are erasing types, and comprise have operating system guiding medium of (OS) instruction and data that are imported into volatile memory during system start-up.These medium 175 can be read-only or read/writable medium and can be (for example hard disk), (for example laser disc) of optics, semi-conductive (for example application-specific IC (ASIC)) or the combinations thereof of magnetic.

This control system 170 can be connected with this transmission parts, test block and fitting piece, and can indicate and receive the information from these assemblies.For example, this control system 170 can be utilized this test block 160 testing RFID modules, and only normal RFID module is engaged to this RFID antenna.Like this, bad RFID module 180 can be omitted and can not join corresponding antenna 190 to.

Fig. 2 is contiguous this test block and the top view with roll type substrate 200 of a plurality of RFID modules 220, and Fig. 3 then is contiguous this test block and the side view with roll type substrate 200 of a plurality of RFID modules 220.Each RFID module 220 all comprises conductive pattern 230 and chip 240.The initial step of this anabolic process provides this RFID module 220 and tests.This test is specially designed with the RFID application of having mapped out at the fabricator, and a plurality of RFID module can be tested simultaneously to increase its production capacity.

This test block can comprise two measuring heads 250, and these two measuring heads 250 that are used for the RFID module come down to the outstanding probe in conductive pattern 230 belows of this RFID module.This measuring head 250 can be the conductor that is not in actual contact this conductive pattern 230, and preferable enforcement is can read via this substrate 200 and interact with this RFID module.This roll type substrate 200 can be made by mylar (for example three millimeters PET film), and it comprises the sprocket holes 210 (Sprocket Hole) for transmission parts work.

This measuring head 250 can be imitated antenna to connect and put to this RFID module, and fully tests its function and read distance, also can need not across this chip of sequencing under the module interface.For example, under the frequency of 2.5GHz, the measuring head 250 of this test block can accurately be measured the distance that reads of this RFID electric label, make between positive and negative 1% by this module then, the test of this RFID module can adopt synchronous mode to carry out, promptly transmitting bit (Bit) simultaneously carries out to each module, for example this module can be adapted to the scale-of-two search pattern immediately, this moment, bit can be transferred into the module under all tests effectively at one time, and these modules need not mutual interference and can respond, and this can increase substantially the speed of testing RFID module in system.

Fig. 4 is contiguous fitting piece and the top view with roll type substrate 400 of a plurality of RFID modules 410.This fitting piece can comprise (Sheering) instrument that cuts 420 and vacuum head 430, separates this module 410 from this first substrate 400, and it cuts 440 for the first time and also can carry out as mentioned above.

Can be at the bottom surface of this first substrate 400 coating sticker 450, be used for this module 410 is connected to the RFID antenna, Fig. 5 is this first substrate 400 and this side view with roll type second substrate 500 of RFID antenna and contiguous this fitting piece with RFID module 410, and this sticker coated article 510 (for example roller or sprinkler (Sprayer)) then can be used for being coated with this sticker before this module is separated and is engaged to this antenna.

This fitting piece also can comprise registration arm 520, after cutting is finished the last time, this registration arm 520 can at this be fed to the below on the reel antenna and promote this downwards and separated module.Should it can be about 5 millimeters or still less across distance of crossing this module position.This vacuum head 430 with cut instrument 420 and can move down cutting away this module, and can proceed to contact this antenna until this module.Then, finish label 530 by this module and combination of antennas.

Fig. 6 is this top view with roll type substrate 500 of RFID antenna, and antenna conductive patterns 600 is the examples that engage the RFID antenna that exposes before the RFID module.Can use many forms of antenna conductive patterns according to the application of RFID.The RFID module that 650 demonstrations of RFID electric label engage with this antenna.

When using system of the present invention and technology, but The parallel combined RFID electric label, can design a combined system, engage form to make multiple module from the equal modules reel of the single reel top of antenna simultaneously, and allow in this combined system, to share hardware, to reduce the integral device cost as much as possible.In the system of Fig. 1, this fitting piece comprises a plurality of joint units, and this transmission parts is designed to aim at simultaneously and these a plurality of joint units not the RFID module and the antenna of the same spacing of symbolic animal of the birth year (Pitch).In addition, also can adjust this transmission parts to allow the spacing ratio of disparate modules to antenna.

Fig. 7, Fig. 8 aim at RFID module 700,710,720 and the antenna 760,770,780 that engages with simultaneously mutually, Fig. 7 is a top view, Fig. 8 is a side view, wherein show moving direction with arrow, this RFID module is can be in group's mode tested and engage, and each fitting piece will be handled this group in proportion this moment, for example, when three fitting pieces, each fitting piece is handled 1/3rd in the group.

For example, in the system that three fitting pieces are arranged, these RFID modules can 21 modules be one group and operate, at first, module #1 (720), module #8 (710) can be positioned to aim at antenna #1 (780), antenna #8 (770) and antenna #15 (760) with module #15 (700), if three modules of having aimed at are through being identified as normal module, and then can be all by the parallel these antenna that is engaged to, and after having engaged these modules, this module and antenna are pushed into a position.Then, module #2 (750), module #9 (740) and module #16 (730) are engaged to its corresponding antenna, all finish joint until module #1 to module #21; Fig. 9, Figure 10 are the Fig. 7 first pack module is engaged to its respective antenna by walking abreast after, the alignment system of Fig. 8, this moment, label #1 (900), label #8 (910) formed with label #15 (920), and module #2 (750), module #9 (740) have been aligned to its corresponding antenna with module #16 (730).

If finding a certain module is bad module, then this module is not engaged to antenna, but can in the arrangement of module, keep motionless, therefore, for any bad module that does not position configuration, its corresponding combined antenna might engage without any module, can handle these antennas that omit (as described later by some modes, even if these antenna in fact is not omitted in operating process, omit) but still regard it as.

Feasible mode is to advance or retreat to aiming at suitable antenna to engage the position of the first normal module on this module reel, for example, if module #10 (930) lost efficacy, then antenna #10 (940) can be located on the slot # 1 and engage with module #22, then, module #23 then becomes the first cis-position module in next joint group.

Another fills up the mode of omitting antenna is that this antenna is stayed original position, and follow and on this position, dispose next normal module (promptly this antenna in fact is not omitted) in this group, end in seven positions of this group, next is organized normal module and can be pushed into and be aligned to suitable antenna and location.For example, Figure 11, Figure 12 be when antenna that bad module does not engage and omitted by the alignment system of Fig. 7, Fig. 8 after filling out, if module #12 (1200) is invalid, then module #13 (1210) can be engaged to antenna #12 (1220), then, module #14 (1230) is engaged to antenna #13 (1240), then, antenna #14 (1250) can accept module #22 (1260), and after finishing reparation, 21 modules of next group and antenna will be positioned again and restart, and repeat above-mentioned complete step and get final product.

In addition, the number of this joint unit is not limited to three, also can be other quantity.The extra fitting piece of parallel work-flow can increase production capacity, though the overall complexity of this system may thereby increase.Failed module can cause that the production capacity of this system reduces, and the number of fitting piece can be adjusted according to the inefficacy ratio of expecting with module size in batches, and generally speaking, expecting has 95% module acceptance rate to the major general.

Figure 13 is the process flow diagram of combination RFID electric label method, in step 1300, whether the RFID module of discerning on first substrate has normal function, the function of this RFID module is carried out information Recognition can comprise this RFID module of test, as mentioned above, read the indicator (for example being located on or near the optical scanning that is used for visual indicia of bad module in the test process formerly) of contiguous this module, perhaps receive information from another source.Test this module and can be included in this RFID module that can walk abreast and carry out of test on the first volume cartridge type substrate, whether can use as expection with the function of discerning this RFID module.

In step 1310, use this RFID module of sequencing at expection.

In step 1320, choose of the joint operation of RFID module to the RFID antenna according to the conductive pattern of the bad RFID module of discerning.Generally speaking, the position of this bad RFID module is at random, and this helps to improve the operating efficiency that engages of module and antenna.By the configuration of examination back module group, best mode should be handles the antenna that omits.For example, module acceptance rate to expected 97%, available two fitting pieces dispose 40 every batch module in batch, and can expect that every batch has one or two bad module, if what this was about to carry out batch has bad module at position #3 and slot # 25, then this antenna #3 that omits can be filled out module #4 etc., until these two bad modules are thrown aside, and module #6 and module #26 will walk abreast respectively and be positioned on the position of antenna #5 and antenna #25, in like manner, if these 40 modules that are about to carry out batch have bad module at position #17, then antenna #17 can be omitted and fill out module #41 subsequently, makes module #42 become first cis-position of next batch.

In addition, can set up this system makes it allow discrepant aligning the between modules and antenna at these a plurality of fitting pieces.Therefore, as above-mentioned example, module #4 can be aligned and be positioned to be aligned and to be positioned on the antenna #23 with seasonal module #23 on the antenna #3, and then, this is discrepant can to return to normal aligning to the brigadier, and module #6 and module #26 will reach the location.

In step 1330, to the RFID antenna, this can walk abreast as above-mentioned use roll type substrate and carry out with this normal RFID module alignment of having discerned.

Then, in step 1340, form this RFID electric label by the RFID module of identification and the RFID antenna of this first substrate on this second substrate, this also can use the roll type substrate and parallel carrying out.In addition, this roll type substrate can have RFID module and RFID antenna abreast.

Be noted that logic flow does not as shown in figure 13 need specific or continuous order just can reach required result.

Figure 14 has the example of the roll type substrate of RFID module and RFID antenna side by side, and roll type substrate 1400 has three row RFID modules, and corresponding roll type substrate 1410 has three row RFID antennas, its arrangement and to should the RFID module.Another corresponding roller formula substrate 1420 has the different RFID antenna of three rows, also is to arrange and to should the RFID module.Therefore, the mode of this RFID electric label of another The parallel combined is to widen this roll type substrate, and disposes more module and antenna on substrate abreast.These a plurality of modules of RFID side by side can be engaged to this antenna simultaneously, and when bad RFID module was omitted, this respective antenna then can have the connecting module in the module that same row have engaged.In addition, this RFID module and RFID antenna engages operation and can select to carry out according to the conductive pattern that is identified as bad RFID module.

This roll type substrate with above-mentioned RFID module can be according to Application No. 10/396, " Chip Attachment in an RFID Tag " described system and technology manufacturing of 932 (applications on March 25th, 2003), this manufacturing in the RFID module on the roll type substrate can be carried out respectively or carry out in the system of described system of above-mentioned patent capable of being combined and technology.

System described herein and technology can be at the ASICs of digital circuit, integrated circuit, particular design, realize in computer hardware, firmware, software and/or the above-mentioned combination.These multiple enforcements can be included in the enforcement in one or more programs, wherein this program can be carried out in comprising the programmable system of at least one programmable processor and/or translate, this programmable system is used for specific or general objects, combine with reception data and/or indication form, and transmission data and/or indicate to storer, at least one input media and at least one output unit.

These programs (also being regarded as computer program, software, software application or software program code) comprise the indication of the computing machine of programmable processor, and can the high-order program and/or goal orientation program language and/or be performed with combination/computerese." computer-readable media " as used herein is meant any software product, computer program, is used to provide computing machine indication and/or data to the equipment and/or the device (for example storage medium of the reservoir of magnetic, optics, programmable logical unit (PLDs)) of programmable processor, comprises the computer-readable media that can receive as the computing machine indication of computer readable signals.

Claims (30)

1. RFID electric label combined system is characterized in that this system comprises:

RFID module transmission parts, removable first substrate with a plurality of RFID modules;

RFID antenna transmission parts, second substrate of this first substrate of removable aligning, this second substrate has a plurality of RFID antennas; And

Fitting piece, this first substrate is separated this RFID module certainly, and this RFID module is engaged to RFID antenna on this second substrate.

2. the system as claimed in claim 1 is characterized in that, this fitting piece also comprises the sticker coated article.

3. the system as claimed in claim 1 is characterized in that, this fitting piece also comprises vacuum head, cuts instrument and registration arm.

4. the system as claimed in claim 1 is characterized in that, this first substrate comprises the substrate of reel form.

5. RFID electric label combined system is characterized in that this system comprises:

RFID module transmission parts, removable first substrate with a plurality of RFID modules;

RFID module testing spare is adjacent to this RFID module;

RFID antenna transmission parts, removable second substrate with a plurality of RFID antennas;

Fitting piece is adjacent to this first substrate and second substrate; And

Control system is connected with test block with these transmission parts, and comprises a computer-readable media that includes the information indication of instruction, and the operation that these medium are carried out according to this control system then comprises:

Move this first substrate relative to this test block,

Use this test block to discern normal RFID module,

Make this this RFID antenna of normal RFID module alignment,

Form the RFID electric label with this normal RFID module and RFID antenna.

6. system as claimed in claim 5 is characterized in that, this RFID module testing spare comprises a plurality of measuring heads, so that test a plurality of RFID modules in each test operation.

7. system as claimed in claim 5 is characterized in that, this system also comprises the sticker coated article of contiguous this RFID module.

8. system as claimed in claim 5, it is characterized in that, this fitting piece comprises the cutter of contiguous this first substrate, and the step of aiming at this normal RFID module comprises that relatively this cutter is aimed at this good RFID module and this RFID antenna, and the step that forms the RFID electric label comprise this cutter of use and certainly this first substrate separate this normal RFID module.

9. system as claimed in claim 5 is characterized in that, this first substrate comprises the roll type substrate.

10. system as claimed in claim 5, it is characterized in that, this RFID antenna transmission parts comprises a plurality of steering assemblies, and this steering assembly is used for this second substrate is fed to a curved path, makes two or more RFID modules can aim at two or more RFID antennas in each alignment function.

11. system as claimed in claim 10 is characterized in that, the step of this normal this RFID antenna of RFID module alignment is comprised omits after the bad RFID module, with the RFID antenna alignment that omits to next available normal RFID module.

12. system as claimed in claim 11, it is characterized in that, this aligning RFID module is carried out with the step that forms the RFID electric label in batches, and have bad RFID module batch after, the available normal RFID module of this next one can be chosen from next batch.

13. system as claimed in claim 10 is characterized in that, the step of this normal this RFID antenna of RFID module alignment is comprised when omitting bad RFID module the normal RFID module alignment RFID antenna that the next one is available.

14. system as claimed in claim 9 is characterized in that, this roll type substrate has two or more RFID modules arranged side by side.

15. a RFID electric label combined method is characterized in that this method comprises:

The RFID module that obtains on the first volume cartridge type substrate is the information Recognition with normal function;

With the RFID antenna on this RFID module alignment of having discerned second roll type substrate; And

By the RFID module of having discerned on this first volume cartridge type substrate and this RFID antenna, on this second roll type substrate, form the RFID electric label.

16. method as claimed in claim 15 is characterized in that, this aligning RFID module comprises with the step that forms the RFID electric label aims at and forms this RFID electric label arranged side by side.

17. method as claimed in claim 15 is characterized in that, this method comprises that also the pattern of the bad RFID module that obtains according to information Recognition chooses the operation of RFID module to the RFID antenna.

18. method as claimed in claim 15 is characterized in that, this first and second roll type substrate has RFID module arranged side by side and RFID antenna.

19. method as claimed in claim 16 is characterized in that, this aligning comprises at the bad module of having discerned with the parallel step that forms the RFID electric label, differentially aims at and form this RFID electric label.

20. method as claimed in claim 15 is characterized in that, the step whether this identification RFID module has normal function comprises the RFID module of testing on this first volume cartridge type substrate, fully normally can be used for expecting the RFID module of using to discern this.

21. method as claimed in claim 15 is characterized in that, this method also comprise at the expection application and this RFID module of sequencing.

22. method as claimed in claim 20 is characterized in that, the step of testing this RFID module comprises this RFID module of concurrent testing.

23. a computer-readable media, the information indication that it comprises instruction is characterized in that these medium comprise by the performed operation steps of one or more counters:

The RFID module that obtains on the first volume cartridge type substrate is the information Recognition with normal function;

With the RFID antenna on this RFID module alignment of having discerned second roll type substrate; And

By the RFID module of having discerned on this first volume cartridge type substrate and this RFID antenna, on this second roll type substrate, form the RFID electric label.

24. computer-readable media as claimed in claim 23 is characterized in that, this aligning RFID module comprises with the step that forms the RFID electric label aims at and forms this RFID electric label arranged side by side.

25. computer-readable media as claimed in claim 23 is characterized in that, this operation steps comprises that also the bad RFID module pattern that obtains according to information Recognition chooses the operation of RFID module to the RFID antenna.

26. computer-readable media as claimed in claim 23 is characterized in that, this first and second roll type substrate has RFID module arranged side by side and RFID antenna.

27. computer-readable media as claimed in claim 24 is characterized in that, this aligning comprises at the bad module of having discerned with the parallel step that forms the RFID electric label, differentially aims at and form this RFID electric label.

28. computer-readable media as claimed in claim 23, it is characterized in that, the step whether this identification RFID module has normal function comprises the RFID module of testing on this first volume cartridge type substrate, fully normally can be used for expecting the RFID module of using to discern this.

29. computer-readable media as claimed in claim 23 is characterized in that, this operation steps also comprise at the expection application and this RFID module of sequencing.

30. computer-readable media as claimed in claim 28 is characterized in that, the step of testing this RFID module comprises this RFID module of concurrent testing.

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