Growth in global crystal oscillator market has been negatively affected by the inception of si-MEMS oscillators. However, the market is anticipated to sustain a constant slow paced growth rate as si-MEMS offers poor frequency stability and incurs additional cost as compared to oven-controlled crystal oscillator.
Crystal Oscillator Market report, published by Allied Market Research, forecasts that the global market is expected to garner $3.2 billion by 2022, growing at a CAGR of 5.8% during the period 2014-2022.In 2015, Asia-Pacific dominated with over 40% share of the overall market, and is anticipated to continue this trend during the forecast period.
Crystal oscillators are circuits with piezoelectric material that works as a frequency selective element. The oscillation frequency of a crystal oscillator is determined by the vibrations of the piezoelectric material used in it. These crystal oscillators have a very high Q-factor and are extensively applicable across various industries such as electronics, IT & telecommunication, aerospace & defense, and automotive & transport. These crystals are replacing tuned circuit owing to their smaller size, high temperature range, and higher Q-factor.
The crystal oscillator market growth is driven by the rise in number of tablet, smartphones, and other consumer electronics equipment; increase in advanced automotive technologies; deployment of 3G, 4GLTE and 5G technologies; which require high-frequency stability; and continuous advancements in healthcare equipment. However, the evolution of other technologies for oscillators such as si-MEMS technologies restrains the market growth. Although the increase in demand for quartz MEMS technology provides new opportunities for growth.
In technologies, temperature-compensated crystal oscillator (TCXO) holds the largest share, in terms of revenue, in overall market, owing to its low cost and wide usage in low-end applications such as smartphones, laptops and watches. However, the oven-controlled crystal oscillators (OCXOs) are gradually replacing TCXOs owing to their enhanced frequency stability, reduced cost, and advance measure of temperature compensation through the use of an oven. Thus, the OCXOs are anticipated to grow with the highest CAGR during the forecast period.
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AT cut and SC cut technologies together contribute over 90% of the technology segment in overall crystal oscillator market. AT cut crystal has a compact size and performs well in a wide temperature range, while SC cut provides enhanced frequency stability with widespread application in IT & telecommunication industry. The SC cut crystal oscillator segment is anticipated to be one of the highest growing type of crystal oscillators. Based on mounting scheme, the market has two sub segments: surface mount and thru-hole. The surface mount crystal oscillator attributes over 75% market share and is anticipated to grow with highest CAGR as it consumes less space, and it is mainly used in automated operations. Thru-hole is comparatively bulky and it is utilized in manual devices.
Based on industry vertical, electronics and IT & telecommunication industries together occupy a large share of global crystal oscillator market. In electronics, crystal oscillators are used in almost every device such as wearable electronic devices, watches, smartphones, laptops, and tablets. The growth in IT & telecommunication is attributed by the advancement in generation of technologies such as 2G, 3G, 4G, and 5G services. This leads to need of more frequency stability, which drives the need for high-end crystal oscillators. On the basis of geography, Asia-Pacific contributes the largest share in overall crystal oscillator market, followed by North America, Europe, and LAMEA. The LAMEA market is anticipated to grow at highest rate.
Growth in global crystal oscillator market has been negatively affected by the inception of si-MEMS oscillators. However, the market is anticipated to sustain a constant slow paced growth rate as si-MEMS offers poor frequency stability and incurs additional cost as compared to oven-controlled crystal oscillator. states Gaurav Shukla, Research Associate, Semiconductor & Electronics at AMR.
The key players of the global crystal oscillator market are adopting novel concepts & ideas, partnerships, acquisitions, and improvement in manufacturing techniques, besides enhancing their profitability, to gain a competitive edge over other players. The major players profiled in the report include Seiko Epson Corp., Nihon Dempa Kogyo Co., Ltd., TXC Corporation, Vectron, River Eletec Corporation, Kyocera Crystal Device Corporation, Murata Manufacturing Co., Ltd., Rakon Limited, Daishinku Corp., and Fox Electronics.
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