News posted on: 2019/11/20 1:35:44 - by Norah - RFIDtagworld XMINNOV RFID Tag Manufacturer
What is the new technology of RFID technology and its label?
RFID tag antenna preparation technology
的核心问题影响促进RFID芯片technology and cost. RFID electronic tags are mainly composed of a substrate, an antenna and a chip. The antenna layer is the main functional layer, and its purpose is to transmit the maximum energy into and out of the tag chip. Compared with the conventional etching method and the winding method, the direct printing method of the tag antenna greatly saves the cost.
1. Traditional manufacturing process of tag antenna
1 processing the label antenna by etching
The antenna should be printed with a resist film before etching. First, the PET film sheet is coated on both sides with a metal (such as copper, aluminum, etc.) foil; then printed (screen printing, gravure, etc.) or photolithography. The resistive ink is printed on the double-sided antenna pattern area of the substrate to protect the circuit pattern from being eroded during etching: then etching is performed, that is, the printed ink pattern cured sheet is immersed in the etching liquid to dissolve the unprinted resist ink layer. The metal of the area; then the anti-etching ink on the metal layer of the film sheet antenna pattern is removed, thus obtaining the tag antenna. Alternatively, a photoresist film is preliminarily coated on the surface of the copper-clad substrate by photolithography, and exposed by a corresponding mask, and subjected to development etching to remove the residual resist film on the plate to obtain a complete antenna pattern.
2 winding method for preparing tag antenna
Currently. The manufacturing process of the copper wire-wound RFID tag antenna is usually carried out by using an automatic winding machine, that is, an insulating varnish is directly coated on the substrate carrier film, and a copper wire with a low-melting lacquer is used as a substrate of the RFID tag antenna. Finally, the wire is mechanically fixed to the substrate with a binder. The process flow is shown in Figure 4. This method is highly reliable, but it is too costly for RFID tags.
2. Label antenna printing process
Based on the disadvantages of the polluted environment and high cost in the traditional tag antenna preparation method, and the process is complicated, the finished product is produced for a long time and will be replaced by a new process. Direct printing of RFID tag antennas by printing is an environmentally friendly, energy-saving, low-cost manufacturing process. Existing available printed RFID tag antennas are available in both screen and inkjet printing.
1 screen printing method to prepare antenna
Screen printing is a process of direct printing using a stencil, that is, printing directly on a paper-based or plastic film web with conductive ink. The general process flow is: screen printing of the label antenna is to make the conductive ink from the other side of the screen. The ink is swept through the screen with a squeegee, and the ink penetrates the mesh gap of the antenna pattern on the screen and is printed on the printed substrate. When RFID tag antenna printing is performed, the antenna coils of RFID tags with different working frequencies will correspond to different turns, coil thickness and distance between each turn (for example, the HF band uses a chip of 13.56 MHz, usually it requires a coil The number of turns is 6, the thickness is about 20um: UHF band uses 868MHz and 950MHz chip, the thickness of the coil section is about 4um), so the thickness of the printed ink layer, the width of each line and the contour of the dried image are strict. The tolerance range (such as the error of two overlapping overprints must be within 0.1mm).
The thickness of the ink layer printed on the screen can be up to 100um, which is several times that of flexo, offset and gravure, which is very advantageous for printing the tag antenna with conductive ink. In the actual production of printed circuits, the thickness of the ink layer is generally 8 to 12 um, and the drying can be accomplished by means of UV, IR and hot air.
2 inkjet printing method to prepare antenna
丝网印刷节省成本在某种程度上,布鲁里溃疡t its ink uses about 70% high-silver conductive silver paste to obtain an antenna between 15 and 20um. It is a thick film printing method with high cost and has a printing process. Solvent discharge, ink layer flexibility is poor. The use of an ink jet printer to prepare a conductive line requires only a conductive ink to be sprayed onto the substrate by a nozzle of the ink jet printer to form a conductive line according to a pattern designed by the computer system. As a non-traditional printing method, the inkjet printing method has been widely concerned in the production of an antenna due to its short manufacturing cycle, no pollution, and low cost. Many well-known institutions and research institutes at home and abroad have long been committed to the research of inkjet conductive inks and have made remarkable achievements. Beijing Institute of Printing, with the research team led by Prof. Li Luhai, successfully developed an inkjet conductive ink with a conductive film thickness of about 1 m and a resistance of about 1 . In 2008, Kovio introduced a FFD prepared by inkjet printing nano-silicon ink. , the first commercial success of inkjet printing ink; South Korea's Suncheon University in 2009 developed a full-print 1-bit RF tag based on carbon nanotube ink.
The use of inkjet printing for RFID tag production can be divided into three ways: 1 using inkjet printing method to spray resist ink, solder resist ink and character ink onto the copper clad plate, after curing to obtain the finished product; The conductive ink of the nano metal particles directly sprays the circuit pattern on the polyester substrate, and is cured by low temperature baking to form a circuit: 3 by using ink of corresponding characteristics, the capacitor and the resistor in the RFID tag are manufactured by inkjet printing. Electronic devices. Compared with traditional printing methods. Inkjet printing can achieve faster production speeds, lower printing costs, and more importantly, increase the wiring density and improve the quality of finished products.
Outlook
RFID tags are gradually being applied in various fields due to their unique advantages. People are committed to research and solve the shortcomings of traditional methods of preparation. As a new technology of tag antennas, inkjet printing relies on the advantages of low cost, good conductivity, no pollution and easy control of antenna patterns, which will make RFID technology more widely used.
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