NXP Releases Complete Passive Solution for NFC Interaction with...

Eindhoven, Netherlands and San Jose, California (PRWEB) August 29, 2014

NXP Semiconductors N.V. (NASDAQ: NXPI) today announced a complete passive solution for near field communication (NFC) interaction for a wide variety of applications such as home appliances, consumer electronics, wearable technology and home automation. By combining a contactless NFC interface with a contact I²C interface and onboard non-volatile memory, the NTAG I²C[1] solution enables new kinds of NFC tag interactions, including advanced device pairing, personalization of electronic devices, and device maintenance. While existing NTAG solutions can only interact with NFC-enabled devices, the new NTAG I²C memory can be accessed via the existing embedded microcontroller of any electronic device.

“The NTAG I²C is the most complete solution for passive NFC interactions, taking NFC beyond its traditional ecosystem and allowing an exciting new range of applications. Using NTAG I2C, appliance manufacturers and wearable device makers can offer feature-rich options to consumers, allowing them to use their existing NFC-enabled mobile phones as a remote user interface, rather than relying on expensive touchscreens or Wi-Fi connectivity for wireless data exchange on home electronics,” said Rutger Vrijen, vice president and general manager, tagging and infrastructure business line, NXP Semiconductors. “It will now become possible to use the highly intuitive UI on your smartphone to program a washing machine, exchange data with an exercise bike or wristband, and download specific cooking recipes to your microwave oven.”

“The NTAG I2C devices complement our industry-leading low-power LPC microcontrollers perfectly. There are an increasing number of smart home, health and appliance applications in development based on LPC microcontrollers[2] and NTAG I2C tags. The ease of use of these designs is enhanced significantly by the NFC-enabled smart interface,” said Ross Bannatyne, general manager, product line mass market microcontrollers, NXP Semiconductors. “Now customers are able to take full advantage of our flexible, low-power MCU’s while also gaining exposure to the ever-expanding NFC industry ecosystem.”

Optimized for very low-power operation, the passive NTAG I2C solution is capable of energy harvesting from the mobile device to power external circuitry such as low power microcontrollers. It also includes a field-detect function for automatic power-up, so that the mobile device’s battery is not drained during standby while waiting for a NFC phone. As the first fully ISO 14443A / NFC Forum Compliant Type 2 Tag chip with I²C interface and energy harvesting with on board EEPROM, the NTAG I2C solution ensures compatibility with all NFC-enabled devices and allows data to be saved even if the power supply is lost. These features combined make the NTAG I²C particularly well suited for the configuration, calibration or customization of wearable devices.

The new NTAG I²C features a specific pass-through mode, which allows the device to serve as an easy to integrate communication pipe for unlimited bi-directional data exchange between the feature-rich NFC device, which may have a connection to the cloud and an advanced user-interface/display, and the electronic devices. The new device is also fully supported by the recently released MIFARE SDK[3] (Software Development Kit). Designed to provide access to all hardware features on Java level, the MIFARE SDK streamlines the development of Android apps to interact with NTAG devices. The SDK allows Android app developers to concentrate efforts on designing creative apps for a wide range of new applications that support the Internet of Things (IoT) and wearable technology.

Key Features and Benefits of the NTAG I²C Solution:

Fully compliant with ISO/IEC 14443A
Fully compliant with NFC Forum Type 2 Tag
Input capacitance of 50 pF, reducing coil size and lowering BOM/antenna footprint
I²C interface supports standard (100 kHz) and fast (400 kHz) modes
888 or 1,904 bytes of user memory for NDEF message or data storage (based on EEPROM)
Read-only locking function
Unique 7-byte serial number to help validate authenticity
Get Version command for easy identification of chip type and supported features
64-byte SRAM memory buffer enabling efficient “pass-through” of data, not limited by EEPROM memory cycles and using field detection signal as a mean of data transfer synchronization
Clear arbitration between RF and I²CFast Read command for shorter test times and increased throughput
Non-volatile storage of data for zero power configuration
Configurable Field Detect output signal to facilitate automatic power-up, while eliminating the need for software polling
Energy harvesting to provide sufficient power to drive a low-power microcontroller, LEDs and other circuitry (e.g. for sensors)

Links:

MIFARE SDK Overview
MIFARE SDK Video

About NXP Semiconductors
NXP Semiconductors N.V. (NASDAQ: NXPI) creates solutions that enable secure connections for a smarter world. Building on its expertise in High Performance Mixed Signal electronics, NXP is driving innovation in the automotive, identification and mobile industries, and in application areas including wireless infrastructure, lighting, healthcare, industrial, consumer tech and computing. NXP has operations in more than 25 countries, and posted revenue of $4.82 billion in 2013. Find out more at http://www.nxp.com[6].

ENDS

Forward-looking Statements
This document includes forward-looking statements which include statements regarding NXP’s business strategy, financial condition, results of operations and market data, as well as other statements that are not historical facts. By their nature, forward-looking statements are subject to numerous factors, risks and uncertainties that could cause actual outcomes and results to be materially different from those projected. Readers are cautioned not to place undue reliance on these forward-looking statements. Except for any ongoing obligation to disclose material information as required by the United States federal securities laws, NXP does not have any intention or obligation to publicly update or revise any forward-looking statements after NXP distributes this document, whether to reflect any future events or circumstances or otherwise. For a discussion of potential risks and uncertainties, please refer to the risk factors listed in NXP’s SEC filings. Copies of NXP’s SEC filings are available from the SEC website, http://www.sec.gov[7].


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References

  1. ^NTAG I²C (www.prweb.net)
  2. ^LPC microcontrollers (www.prweb.net)
  3. ^MIFARE SDK (www.prweb.net)
  4. ^MIFARE SDK Overview (www.prweb.net)
  5. ^MIFARE SDK Video (www.prweb.net)
  6. ^http://www.nxp.com (www.prweb.net)
  7. ^http://www.sec.gov (www.prweb.net)
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