FXR.4030.A.DG

Part No: FXR.4030 Series Description: Rectangular Form Factor Flexible Near Field Communications Antenna Features: 13.56 MHz Antenna Flexible Low Profile Embedded Typical interrogation distance: 40 mm Dimensions: • Length and Height: 40 x 30 mm • Thickness: 0.14 mm - FXR.4030.A - NFC without ferrite • Thickness: 0.27 mm - FXR.4030.A.dg - NFC with ferrite • Thickness: 0.27 mm - FXR.4030.52.0075X.A.dg - NFC with ferrite and 75mm twisted cable. Peel and stick 3M adhesive on back RoHS & Reach Compliant SPE-22-8-121-A 1. Introduction 3 2. Specifications 4 3. Antenna Application 5 4. Mechanical Drawing 10 5. Packaging 13 Changelog 14 Taoglas makes no warranties based on the accuracy or completeness of the contents of this document and reserves the right to make changes to specifications and product descriptions at any time without notice. Taoglas reserves all rights to this document and the information contained herein. Reproduction, use or disclosure to third parties without express permission is strictly prohibited. SPE-22-8-121-A www.taoglas.com 2 1. Introduction 1. Introduction 1. Introduction 1. Introduction 1. The Taoglas FXR and FXC series of high-performance NFC (Near Field Communications) antennas are ideal for IoT and mobile devices and for applications such as contactless payment systems, access control or RFID systems. 1. The compact, flexible NFC antennas are supplied with adhesive backing for quick and easy installation and can be mounted inside a plastic device enclosure or on an internal battery. For any NFC antennas that are attached to the battery, we offer variants with ferrite flux directors to provide isolation from the battery or other electronic components within the device. Using the antenna on a conductive surface without a ferrite layer could result in losses on the antenna communication performance. 1. 1. Introduction Introduction Introduction Taking into consideration the many environments that the antenna could be used, Taoglas offers three versions of each of the FXR and FXC series models. A standard model without ferrite and adhesive backing, a model with a ferrite layer and adhesive backing and a third model with ferrite and a 75mm Twisted Pair 28AWG cable with ACH(F) connectors. Introduction Typical Applications Include: - Mobile Devices Wearable Smart Devices Payment Terminals Device tracking and ID systems Access control For further optimization to customer-specific device environments and for support to integrate and test this antennas performance in your device, contact your regional Taoglas Customer Services Team. SPE-22-8-121-A www.taoglas.com 3 2. Specifications 3. Antenna Characteristics2. Part Number 3. 4. 4. 13.56 MHz 13.56 MHz 0.99 µH 1.08 µH Rs 1.02 ohm 1.41 ohm 1.67 ohm Q Factor 61 59.8 55.1 Antenna Radiation Patterns3.Antenna Specifications Self-Resonance Frequency 144.7 MHz 116.1 MHz 75.7 MHz Rp 13.4 kohm 5.6 kohm 4.7 kohm Antenna Characteristics2. Specifications Mechanical 40*30 mm Thickness 0.14 mm Antenna Characteristics 40*30 mm 40*30 mm 0.27 mm 0.27 mm RoHS Compliant Yes Yes Yes Adhesive 3M467 or 3M9460 3M467 or 3M9460 3M467 or 3M9460 Antenna Radiation Patterns3.Antenna Weight Operation Temperature 1g 1g 1g -40°C to 85°C -40°C to 85°C -40°C to 85°C -40°C to 85°C Non-condensing 65°C 95% RH Non-condensing 65°C 95% RH Environmental -40°C to 85°C Storage Temperature -40°C to 85°C Antenna Radiation Patterns Humidity 4. FXR.4030.52.0075X.A.dg 0.73 µH Characteristics 4. FXR.4030.A.dg La Antenna Dimensions 3. FXR. 4030.A FrequencyCharacteristics 13.56 MHz Antenna Characteristics2. 3. Specifications Electrical Non-condensing 65°C 95% RH * Contact pads are gold plated copper. Base material is polyimide which can take heat from soldering for brief periods suitable for attaching wires. Additional wire length will affect read range and result in different performance than that detailed in this document. Antenna Radiation Patterns3.Antenna Characteristics 4. Antenna Radiation Patterns3.Antenna Characteristics2. SPE-22-8-121-A Specifications www.taoglas.com 4 3. 4. Antenna Application 3.1 Test Setup Antenna Radiation Patterns3.Antenna Characteristics A test fixture is used to measure the maximum interrogation distance. The FXR.4030.A antenna is connected to NFC evaluation boards and then placed under the PC material blocks to communicate with the standard card above them. 4. 4. Antenna Radiation Patterns The Demo boards Antenna Radiation Patterns3.Antenna The standard card Characteristics PC blocks 4. Antenna Radiation Patterns3.Antenna FXR. 4030.A Characteristics The POS machines 4. The Demo boards Antenna Radiation Patterns PC blocks 4. Antenna Radiation Patterns FXR. 4030.A 4. Antenna Radiation Patterns When the number of the PC material blocks are carefully adjusted until the reader can no longer read the sample, that’s mean in this point the FXR.4030.A cannot establish communication with the standard card or the POS machine, the thickness of the PC material block is the maximum interrogation distance 4. Antenna Radiation Patterns3.Antenna of them. Characteristics 4. Antenna Radiation Patterns3.Antenna SPE-22-8-121-A www.taoglas.com 5 3.2 RFID Tags and POS Used for Test A total of 5 NFC forum tags were used to measure the interrogation distances. The next picture shows type 1, type 2, type 3, type 4 and type 5 tags, respectively. Type 1 is based on ISO/IEC 14443A standard and has 96 bytes of memory. Type 2 is based on ISO/IEC 14443A standard and has 144 bytes of memory. Type 3 is based on ISO-18092, JIS-X-6319-4 Sony Felica standard and has 9k bytes of memory. Type 4 is based on ISO / IEC 14443A 1-4 compliant and has 4K of memory Type 5 is based on ISO-15693 specification, the communication with this NFC Forum Tag type is based on NFC-V Technology. SPE-22-8-121-A www.taoglas.com 6 3.3 The POS machine used for test The next picture shows the POS machine using to measure the Card emulation performance of the FXR.4030. Series NFC antennas. ACR122 is a PC-linked contactless smart card reader/writer developed on the 13.56MHz Contactless (RFID) Technology and followed the ISO/IEC18092 Standard for Near Field Communication (NFC), supporting not only MIFACE® ISO 14443 A and B cards but also NFC and FELICA contactless technologies. The ACR122 is a USB Plug and Play device with CCID compliance. By making use of up to 424 Kbps for NFC Tag access and full USB speed of up to 12 Mbps, the ACR122 can read and write faster and more efficiently. The proximity operating distance of ACR122 is up to 5 cm, depending on the type of contactless tag in use. Operating distance can be extended on request by adding an RF boaster, so the ACR122 is suitable for logistics and supply chain management. T6-BU-00-00 is a 13.56MHz high frequency readable and writable device, a USB drive-free RFID reader card which supports ISO14443 standard protocol Class A card reading and writing read and write. Also, T6-BU-00-00 is a module that can be set to read and write a chip card that supports the ISO15693 standard protocol. SPE-22-8-121-A www.taoglas.com 7 3.3 Matching The interrogation distances presented here were taken with the antenna connected directly to the evaluation boards with the optimzed matching circuit. For the NXP PN553 chipset, it is sugguesd using 20ohm impendence of the NFC antenna. Just like below: As with any matching network the exact circuit and values for an optimal network depend on the combination of antenna, NFC circuit, any intervening transmission line and the environment presented to the antenna. These factors are specific to the particular end product. As a starting point, to achieve the read range results presented here, use the matching network detailed in the schematic of the evaluation board for your particular NFC chip and keep the antenna free of any obstruction. Once you can demonstrate successful reads you can then optimize performance as desired. SPE-22-8-121-A www.taoglas.com 8 3.4 Read/Write & Card emulation mode The NFC forum card type 1~5 were used to measure the interrogation distances in Read/write mode. The POS machine ACR122, T6-14443 T6-15693 were used to measure the interrogation distances in Card emulation mode. The results are in the next table: Device Interrogation Distance(mm) FXR.4030.A FXR.4030.A.dg FXR.4030.52.0075X.A.dg Topaz512 (Type 1) 65 35 32 NTAG203 (Type 2) 67 34 32 Sony Felica (Type 3) 47 24 23 Mifare DESFire (Type 4) 43 16 15 ISO 15693 (Type 5) 112 72 70 ACR122 95 62 56 T6-14443 72 44 38 T6-15693 100 60 52 SPE-22-8-121-A www.taoglas.com 9 4. Mechanical Drawing (Units: mm) 4.1 FXR.4030.A 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. SPE-22-8-121-A Mechanical Drawing www.taoglas.com 10 4.2 FXR.4030.A.dg SPE-22-8-121-A www.taoglas.com 11 4.3 FXR.4030.52.0075X.A.dg SPE-22-8-121-A www.taoglas.com 12 5. Packaging 6. Packaging5. 6. Packaging FXR.4030 Series 1 pcs / Small PE Bag 7. Mechanical Drawing Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. Mechanical Drawing 100pcs/ Grid of Honeycomb Board 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. 7. Honeycomb Board 1 set Carton(mm): 230(L)x175(W)x160(H) Carton board 2 pcs Carton Label Application Note6. Packaging Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. SPE-22-8-121-A Mechanical Drawing www.taoglas.com 13 Changelog for the datasheet SPE-22-8-121 – FXR.4030 Series Revision: A (Original First Release) Date: 2022-09-01 Notes: Author: Cesar Sousa Previous Revisions SPE-22-8-121-A www.taoglas.com 14 www.taoglas.com SPE-22-8-121-A © Taoglas 15 www.taoglas.com