Tyfone, a mobile financial and security solutions provider, announced the issuance of two U.S. Patents supporting a breakthrough design solution that is required to miniaturize a NFC antenna for use in mobile environments, including, but not limited to MicroSD cards, such as Tyfone’s next generation SideTap NFC card.
This latest design works with any smartcard secure element, across multiple mobile devices and on any NFC reader without the need for cumbersome external booster antennas or after-market battery covers.
Tyfone, with its growing portfolio of trailblazing intellectual property, continues to be the recognized global leader for innovation in bringing the power and independence of smartcard based secure elements and integrated NFC into MicroSD and other form factors. The newest design brings MicroSD with NFC on the same playing field as standard MicroSD cards, with the same yield and cost to manufacture. Tyfone’s latest design not only elevates the NFC performance and user experience of self-contained MicroSD solutions to the desired commercialization standards, but also is equally applicable and beneficial to the miniaturization requirements of any NFC deployment form factor.
The two U.S. Patents supporting this new design are: US 7,954,716, entitled “Electronic Transaction Card Powered by Mobile Device” with an effective filing date of February 22, 2005; and US 7,961,101, entitled “Small RFID Card With Integrated Inductive Element” with an effective filing date of August 8, 2008. Tyfone previously announced a Taiwan patent supporting this advanced design: I336449 “Electronic Transaction Card,” with an effective filing date of February 22, 2005.
One of several independent claims from an issued patent reads – “A memory card compatible with a memory card slot in a mobile phone, the memory card including nonvolatile memory accessible by the mobile phone, and a point-of-sale interface to communicate with a point-of-sale terminal, wherein the point-of-sale interface receives power from the mobile phone.” Other claims and patents address additional form factors.
“To meet area constraints of mobile devices and especially that of form factors such as MicroSD, the 13.56MHz radio frequency antenna has to be significantly smaller in size compared to the size used in plastic cards,” said Anantha Chandrakasan, professor of EECS at MIT. “The smaller antenna size however reduces both the available energy for the radio interface circuitry and the read distance to a point-of-sale terminal.”
In accordance with Tyfone’s patented inventions and new MicroSD design, the point-of-sale interface is powered by the phone enhancing both the available energy as well as the read distance. Tyfone’s cutting edge inventions mitigate the need for cumbersome external booster stickers or after-market battery covers, making the next generation SideTap NFC MicroSD solution extremely consumer friendly, compatible with multiple devices and operating systems. Tyfone’s inventions work with any smartcard chip across multiple mobile device platforms and with any NFC reader.
“Since 2004, Tyfone along with its partners has been defining and developing a wide range of technology innovations to enable mobile commerce,” said Prabhakar Tadepalli, chief operating officer of Tyfone. “Part of the payoff of our hard work is delivering these patented products to market and overcoming scaling challenges, eliminating the last barrier to global NFC implementation.”
The next generation SideTap MicroSD design with integrated NFC antenna is available for manufacturing in high volumes and is compatible with existing MicroSD manufacturing processes with very high manufacturing yield. To empower the industry and advance the commercialization of these technologies, Tyfone is making its patents and the self-contained MicroSD solutions available for licensing. Interested parties are invited to register at tyfone.com/license. For those interested in commercialization of the self-contained MicroSD, performance data comparing it to other solutions will be made available after registration.