New KYOCERA Ceramic RFID Package With Embedded Antenna Increases Read Range up to 2X
IoT innovation accelerates expansion of RFID applications in automotive, mHealth, and numerous other markets
14 June 2017
Kyoto/London - Kyocera Corporation (President: Hideo Tanimoto) today announced that it has developed an ultra-small ceramic package utilizing a proprietary multilayer structure with a built-in RFID*1 antenna that can increase the read range up to 2X as compared with conventional packages of the same size. Starting mass production in May 2017, the product will be available worldwide in three sizes (from 6x3x1.7mm to 15x5x1.7mm), with an annual sales target of JPY 3 billion by 2020.
Kyocera’s proprietary technologies cultivated over many years in advanced ceramic materials and multilayer structures ensure a compact package with outstanding performance. The new ceramic package with a RFID antenna will help meet rising demand for RFID tags to support Internet of Things (IoT) applications.
|Product name||Ceramic package with embedded RFID antenna|
|Applications||Automotive, medical equipment control, factory automation and other industrial uses|
(Length x Width x Height)
|6x3x1.7mm, 10x5x1.7mm and 15x5x1.7mm|
|Frequency band||UHF (860-960MHz)|
|Production facility||Kagoshima Kokubu Plant|
As production of IoT devices continues to expand, RFID technology is expected to proliferate into the automotive and medical industries, factory automation and many other industrial fields — with a market expected to total JPY 100 billion (approx. USD 900 million) by 2020*2. While packages utilizing organic or resin-based materials will be utilized for conventional RFID tags in common retail applications, many other applications will require durable RFID packages with higher resistance to harsh environments such as water, heat and chemicals, while still delivering greater read ranges.
Up to 2X communication distance in the UHF band while maintaining compact size
In UHF band*3 testing, this new ceramic package with an embedded RFID antenna provided a read range between 1.5 and 2 times that of conventional RFID tags of the same size. Even as package size decreased, the Kyocera low-profile thin multilayer cavity structure continued to outperform the conventional RFID tags of similar outlines.
LTCC material offers excellent high-frequency properties and high flexural strength
These RFID packages are an excellent example of Kyocera’s extensive multilayer ceramic capability, using a proprietary Low Temperature Co-fired Ceramic (LTCC) formulation and a copper conductor metallization system. The packages take advantage of the low-loss and high-frequency benefits of LTCC, yet deliver the high flexural strength expected from High Temperature Co-fired Ceramic (HTCC).
Cavity structure for IC chip protection and ultra-small tag design
With a cavity designed specifically for an IC chip, this package offers excellent protection against mechanical stress and impact, while facilitating ultra-small, low-profile tag design.
Suitable for metallic products
In contrast to traditional tags that tend to block RF signals, Kyocera’s ceramic package is designed to maximize read range in proximity to metal. This expands RFID feasibility in applications involving metallic products or objects, opening new potential uses in automotive, factory automation, healthcare and many other fields.
Wide range of products
Kyocera offers many options to meet diverse customer requirements. The packages are available in six base configurations — three different sizes for both the UHF and HF*4 (for ultra-short-distance communication) bands. To meet diverse customer demands, Kyocera offers built-in IC chip arrangement and device assembly, providing RFID tags as finished products, in addition to providing ceramic packages and customized designs upon request.
*1 Radio Frequency Identification
*2 Based on research by Kyocera
*3 Systems complying with the UHF Gen2 standard for RFID use the 860 to 960 MHz band
*4 Most HF RFID systems operate at 13.56 MHz
For more information on Kyocera: www.kyocera.eu
- Press Release (pdf) (237.43 KB)
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