Press Release Summary:
Measuring 3.2 x 2.5 x 0.55 mm, low-frequency Model CX3225SB features load capacitance of 8 pF and operating temperature of -10 to +70Â°C. Miniature unit is suited for cellular handsets, portable DVD players, handheld games, tuners, and PDAs. It is RoHS-compliant and compatible with reflow profile of lead-free soldering.
Original Press Release:
KYOCERA Develops the CX3225SB, a Miniature Low-Frequency Quartz Crystal Unit
Kyoto, Japan, Oct. 10, 2005 - Kyocera Corporation is pleased to announce that Kyocera Kinseki, a full subsidiary engaged in the development and production of electronic devices, will ship the CX3225SB miniature low-frequency quartz crystal unit, the world's first miniature, and smallest(*1), crystal unit which oscillates in the 4MHz frequency range. At one twenty-seventh the size of conventional units, the CX3225SB provides stable frequency sources for applications that require compact size and power savings, such as portable DVD's, hand-held game-players, PDA's and cellular handsets.
As no small quartz crystal unit was oscillating at this frequency, Kyocera Kinseki divided higher frequencies, such as 16MHz, using IC, to obtain 4MHz. If small crystal units oscillate at 4MHz directly, the dividing process can be omitted. Based on this, the CX3225SB reduces the power consumption of the overall device by approximately 30%(*2). Moreover, the CX3225SB complies with the RoHS Directive, the European Union's Restriction of Certain Hazardous Substances, and is compatible with the reflow profile of lead-free soldering.
Masahiko Goto of the Kyocera Kinseki Engineering Division explains "We reviewed all designs from the level of crystal fragments used as elements. If crystal fragments are made thinner in conventional thickness-shear mode oscillation, the oscillation frequency will increase, so products cannot be made smaller. We consequently decided to introduce Lame-mode oscillation, which has yet to find widespread application in the industry." Lame-mode oscillation possesses a different oscillation pattern from the thickness-shear mode oscillation, which has been the most common approach in crystal units.
"There are many types of oscillation patterns, including face shear, flexture, extensional, and thickness shear. Considering the two factors of compact size and low frequency, we presumed that the Lame-mode oscillation would be the most appropriate. We conducted an analysis using our simulation technology, and concluded that the Lame-mode oscillation is superior to face shear, flexture, and extensional even in frequency temperature characteristics," says Goto. "This product is not as small as some ceramic oscillators, but it outperforms those ceramic oscillators in accuracy and stability, in frequency tolerance and frequency temperature characteristics at room temperature. We hope that this product will enable smaller digital mobile devices and improve performance, as demand is expected to grow in the future."
Miniature Support for Low Frequencies
With cellular handsets and other digital devices becoming increasingly compact, and with ongoing needs for power savings, there has been growing demand for quartz crystal units that support greater needs. As one of the key components of digital devices, quartz crystal units can make them smaller and reduce the power consumption of batteries by providing support for low frequencies. As the frequency falls, however, the element normally becomes larger. At present, there are few quartz crystal units on the market that meet the twin demands of compact size and support for low frequency.
Kyocera Kinseki, a company that specializes in crystal materials and components and is 100% owned by Kyocera, has responded to this demand, applying its advanced technologies in the simulation, etching, and production of small crystal units that have been developed over many years. The result is the successful development of this miniature low-frequency quartz crystal unit. This product dramatically reduces capacity to one twenty-seventh compared with the company's conventional product, while oscillating at low frequencies around 4MHz.
Samples of CX3225SB will ship from November. Mass production is scheduled to commence in April 2006 at Kyocera Kinseki Yamagata on a monthly production basis of 100,000 units.
Dimensions: 3.2(W) x 2.5(L) x 0.55(T)mm
Frequency range: 3.5 - 5.0MHz
Frequency Tolerance: +/-30 x 10-6 (at +25C.)
Frequency tolerance over
operating temperature range: from +10 to -50 x 10-6 (ref. +25C.)
Motional series resistance: 150ohm max. - 500ohm max.
Level of drive: 10micron w max.
Load capacitance: 8pF(*3)
Operating temperature range: from -10 to +70C.
Storage temperature range: from -40 to +85C.
Schedule for sample shipment: Start in November, 2005
Main applications: Cellular handsets, tuners, PDA, handheld game
players, DVD portable players.
(*1) As of September 2005
(*2) Compared with Kyocera's conventional product
(*3) For other load capacitance values, please ask Kyocera.
For details about this product, please visit http://global.kyocera.com/prdct/electro/index_products.html.
About KYOCERA KINSEKI Corporation
Since its establishment, Kyocera Kinseki has been involved in the development and sale of crystal materials, crystal oscillators, and quartz crystal units, and offers a rich product lineup as an expert in crystal products for industrial applications. In 2003, Kyocera Kinseki was 100% owned by Kyocera Corporation. Integrated with its Electronic Components Division, Kyocera Kinseki, a comprehensive manufacturer of frequency control devices, provides a broad product lineup and is active in overseas markets. The Head Office is located in Komae, Tokyo. For more information, please visit www.kinseki.co.jp.
About Kyocera Corporation
Kyocera Group (TSE: 6971; NYSE: KYO) comprises of over 170 companies around the world, has approximately 58,000 employees, and had consolidated sales of 1,180 billion yen in March 2005. By combining engineered ceramic materials with metals and plastics, and integrating them with other technologies, Kyocera has become a leading supplier of semiconductor packages, electronic components, industrial ceramics, telecommunications equipment, optical instruments, laser printers, copiers and solar energy systems. In recent years, Kyocera has been focusing on three industrial fields of "communication information", "environment conservation", and "lifestyle" as target markets for the 21st century, and concentration of the group's management resources in these fields is proving Kyocera's comprehensive strengths. For more information, please visit www.kyocera.co.jp.
For further information, please visit the Kyocera Corporation home page at: global.kyocera.com/
Electronic Components Division,