This news release is intended for media purposes, and is current of the date of publication. Information is subject to change without notice.
KYOCERA Develops World’s Smallest Crystal Unit for Smartphones, Wearables
KCD’s new CX1008 crystal unit (scale: 0.5mm)
|Application||Smartphones, wearable devices|
|Size||1.0 X 0.8mm|
|Frequency tolerance||± 10ppm|
|Frequency temperature coefficient||± 10ppm (-30℃ to +85℃)|
(equivalent series resistance)
|60Ω MAX (37.4MHz)|
|Production facility||Shiga Yohkaichi Plant (Japan)|
Crystal units are used to generate highly stable reference signals in digital circuits, based on the unique material characteristic of quartz to oscillate at a precise frequency when a specific voltage is applied. The trend toward smaller, more functional smartphones and wearable devices requires smaller, better-performing crystal units. Traditionally, however, it was believed that miniaturizing crystal units beyond a certain point would compromise their performance, since electrical characteristics (such as equivalent series resistance) degraded as the device became smaller. However, Kyocera has succeeded in downsizing the crystal unit while maintaining its electrical characteristics ― with its current CX1210 (1.2x1.0mm) device, and now, by commercializing the ultra-small CX1008 (1.0x0.8mm) crystal unit. This has been accomplished through crystal element design technology developed exclusively by Kyocera, along with a process that Kyocera developed jointly with Associate Professor Kazuya Yamamura of Osaka University.
Based on this technology, Kyocera will accelerate the development of new low-frequency, high-frequency and high-precision oscillators for such applications as automotive electronics, Advanced Driver Assistance System (ADAS) technologies, IoT devices, wireless network base stations and 5G mobile communications.
1. World’s smallest crystal unit with electrical characteristics of the existing CX1210 Downsizing from 1.2x1.0mm to 1.0x0.8mm would ordinarily increase equivalent series resistance (CI value) by approximately 30 percent, requiring circuit board revision. However, by optimizing the design using its own piezoelectric analysis technology, Kyocera has downsized this device to 1.0 x 0.8mm while maintaining the electrical characteristics of the conventional CX1210 crystal unit. This allows the CX1008 to be incorporated into existing circuit designs without revision.
With conventional processes and technologies, a crystal unit exhibits higher levels of variation in key electrical characteristics when produced in smaller dimensions. However, Kyocera has avoided this by applying ultra-high-precision processing (plasma CVM*3 technology) developed with Yamamura. This method, using plasma-generated neutral radicals and a chemical reaction at the surface of an object, enables to control a quartz crystal with highly precise surface conditions and thickness. Further, Kyocera’s proprietary semiconductor processing technology ensures extremely accurate external dimensions, and minimal variation in equivalent series resistance, for optimal performance at reduced size.
*1 KCD will be consolidated into Kyocera Corporation as of April 1, 2017.
*2 Based on research by KCD (as of February 2017)
*3 CVM: Chemical Vaporization Machining