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石英手表的诞生【2018-09-04】
世界上第一块石英表的实际应用与音叉石英晶振的开发是不少工程师所流下的血液，汗水以及眼泪的结晶.随着时间慢慢的推移,石英晶振产品不断的连接着电视,电脑,手机,手表等慢慢靠近着我们的生活.渐渐的这些石英晶振产品已发展成电子行业不可或缺的固定产品.甚至被称为”工业之盐”,电子产品的”心脏”.这些石英晶振最早主由EPSON TOYOCOM公司生产制作而成.

The practical application of the world's first quartz watch and the development of the tuning fork quartz crystal oscillator are the crystallization of blood, sweat and tears that many engineers shed. As time goes by, quartz crystal products are continuously connected to TVs and computers. Mobile phones, watches, etc. are slowly approaching our lives. Gradually these quartz crystal products have developed into indispensable fixed products for the electronics industry. They are even called "the salt of industry", the "heart" of electronic products. These quartz crystal oscillators The earliest production was produced by EPSON TOYOCOM.

QMEMS(Quartz+”MEMS”)是促进MEMS(微电子机械系统)晶体材料微加工工艺独特技术的名称,是EPSON TOYOCOM公司产品的主要核心技术.通过充分利用这项技术的优势可以为石英晶体器件实现更小巧的尺寸及更好的性能.QMEMS技术的起源可以追溯到20世纪70年代初.

QMEMS (Quartz+ "MEMS") is the name of a unique technology that promotes micromachining of MEMS (micro-electro-mechanical systems) crystal materials. It is the main core technology of EPSON TOYOCOM. By taking advantage of this technology, it can be realized for quartz crystal devices. Smaller size and better performance. The origins of QMEMS technology can be traced back to the early 1970s.

1969年，在日本中部的苏瓦湖岸边，当地的一家公司悄然成功地将世界上第一块石英晶振手表变成了现实 - “精工石英天文35Q”（图1），这一事件让世界措手不及。

In 1969, on the shores of Lake Suva in central Japan, a local company quietly succeeded in turning the world's first quartz watch into reality - "Seiko Quartz Astronomy 35Q" (Figure 1), an event that caught the world off guard. .

这真是一个划时代的突破。在此之前，石英钟表虽然非常精确，但却非常大，以至于不能轻易携带，而是采用箱形钟表的形式悬挂在墙壁上。虽然机械手表当然已经存在，但这些并不精确。需要一个创新的解决方案来解决更好的精度和更紧凑的尺寸的双重问题，全球各地的公司都在1960年代中后期进行无情竞争以找到一个问题。

This is really an epoch-making breakthrough. Prior to this, quartz clocks, although very precise, were so large that they could not be easily carried, but were suspended from the wall in the form of a box-shaped clock. Although mechanical watches certainly exist, these are not precise. An innovative solution is needed to solve the double problem of better precision and more compact size, and companies around the world have ruthlessly competed in the mid to late 1960s to find a problem.

图1：世界上第一块石英手表'精工石英Astron 35Q'
注：这些电影是使用YouTube™提供的。
YouTube是Google Inc.的商标

图2：Quartz Astron开发之前的晶体单元这是
在Quartz Astron到来之前实际使用的晶体单元
类型的一个例子。虽然看起来很大，长约50毫
米，但它实际上是当时最小的水晶单元之一.

它是精工苏瓦株式会社，苏瓦湖岸边，它正悄悄地控制着这个发展的竞争对手。使精工苏瓦株式会社领先其竞争对手的因素之一是该公司成功地使晶体单元更加紧凑。传统的水晶装置尺寸非常大，无法装入手表般小的东西（图2）。精工苏瓦株式会社通过采用称为“音叉晶体”的新结构解决了这个问题。新开发的'Cal.35SQ'型尺寸*晶体单元的直径为4.3mm×长度为18.5mm（图3）。此外，精工苏瓦株式会社还能够调整水晶单元的内部结构，以便克服腕表连接在佩戴者手腕上时经常受到的振动和撞击所引起的问题。

It is Seiko Suva Co., on the shores of Lake Suva, and it is quietly controlling this growing competitor. One of the factors that led Seiko Suva to lead its competitors was the company's success in making crystal units more compact. The traditional crystal device is very large in size and cannot be loaded into a watch-like thing (Fig. 2). Seiko Suva solved this problem by adopting a new structure called "tuning fork crystal". The newly developed 'Cal.35SQ' size* crystal unit has a diameter of 4.3 mm and a length of 18.5 mm (Fig. 3). In addition, Seiko Suva can adjust the internal structure of the crystal unit to overcome the problems caused by vibrations and impacts that are often encountered when the watch is attached to the wearer's wrist.

*此时公司开发的音叉式水晶单元用于Suwa Seikosha内部制造的手表。因此，“我们没有给他们一个特定的产品型号，只是通过他们的机芯名称或手表的操作机制（Calibre，或'Cal。'）来提及它们，”Mutsumi Negita说。

* At this time, the company's tuning fork crystal unit was used for watches made inside Suwa Seikosha. Therefore, "we didn't give them a specific product model, just mention them by their movement name or the operating mechanism of the watch (Calibre, or 'Cal.')," Mutsumi Negita said.

图3：Quartz Astron中使用的音叉晶体单元
采用新开发的音叉结构，使Suwa Seikosha能够成功制造出更小的晶体单元，半径仅为4.3mm，长度为18.5mm。它被分配了型号“Type Cal.35SQ”并且具有8.192kHz的正常频率。

Figure 3: Tuning fork crystal unit used in Quartz Astron
With the newly developed tuning fork structure, Suwa Seikosha was able to successfully manufacture smaller crystal units with a radius of only 4.3 mm and a length of 18.5 mm. It is assigned the model "Type Cal.35SQ" and has a normal frequency of 8.192 kHz.
爱普生晶振新推出差分输出晶体振荡器【2018-08-25】
日本精工爱普生晶振公司成立于1942年5月,迄今为止已经成了晶振行业较出名的进口晶振品牌,日本爱普生晶振,KDS大真空晶振,SEIKO精工晶振,KYOCERA晶振,NDK晶振均是日系较大晶振品牌供应商.市场竞争力比较大,各大进口晶振品牌制造商也不断的研发生产新产品.

Japan Seiko Epson Crystal Co., Ltd. was established in May 1942. So far, it has become a well-known imported crystal brand in the crystal industry. Japan Epson crystal oscillator, KDS large vacuum crystal oscillator,Seiko crystaloscillator, KYOCERA crystal oscillator, NDK crystal oscillator are Japanese large crystal oscillators. Brand suppliers. The market competitiveness is relatively large, and the major imported crystal brand manufacturers are constantly developing and producing new products.

就在2014年3月26日,爱普生晶振公司推出SG7050EBN晶振.这款石英晶体振荡器型号是下一代的差分输出晶振(差分信号手于高频时钟和数据信号,以实现良好的信号完整性和高抗噪性.如:高精度,高温度,低抖动,低功耗).可实现极低的相位抖动(时钟周期之前的波动,这可能导致数据传输期间的们错误).

On March 26, 2014, Epson Crystal Corporation introduced the SG7050EBN crystal. This quartz crystal oscillator model is the next generation of differential output crystal (differential signal hands on high frequency clock and data signals for good signal integrity and High noise immunity. For example: high precision, high temperature, low jitter, low power consumption. It can achieve extremely low phase jitter (fluctuations before the clock cycle, which may cause errors during data transmission).

SG7050EBN晶振的频率范围在100~175MHZ之间,可以实现65fs的相位抖动.些性能适用于数据中心和中心局使用的1040和100千兆位以太网互连.SG7050EBN晶振将用于有线网络设备使用,包括运营商和企业,如高端路由器和交换机.

The SG7050EBN crystal has a frequency range of 100 to 175 MHz and can achieve phase jitter of 65 fs. These features are suitable for 1040 and 100 Gigabit Ethernet interconnections used in data centers and central offices. The SG7050EBN crystal oscillator will be used for wired network equipment. , including operators and enterprises, such as high-end routers and switches.

SG7050EBN采用专为低噪声设计的振荡器IC和采用爱普生专用QMEMS(QMEMS结合了”石英”,一种具有出色稳定性和精度的压电晶体材料,以采用微制造技术设计的”MEMS”微机系统.结合了MEMS技术的优势和石英材料的基本优势.也是精工爱普生晶振公司注册的商标)工艺制造的高频基波(HFF)AT切晶体(HFF晶体单元是通过光刻工艺蚀刻成倒置台面形状并以高基频振荡的晶体芯片).实现65fs相位抖动.爱普生的HFF晶体技术比传统的三次谐波晶体更加可靠.爱普生晶振公司后续也打算通过逐步发布支持HCSL和LVDS输出标准的新产品来解决网络设备中使用的各种差分输出格式.EPSON晶振致力于提高客户的设计自由度,采用高度紧凑的5032(5.0*3.2*1.0mm)封装.

The SG7050EBN uses an oscillator IC designed for low noise and a QMEMS (QMEMS combined with quartz), a piezoelectric crystal material with excellent stability and precision, and a "MEMS" microcomputer system designed with micro-fabrication technology. Combines the advantages of MEMS technology with the basic advantages of quartz materials. It is also a trademark of Seiko Epson Crystal Co., Ltd.) Processed high-frequency fundamental (HFF) AT-cut crystal (HFF crystal unit is etched into an inverted mesa shape by photolithography and High-frequency oscillation crystal chip). Realize 65fs phase jitter. Epson's HFF crystal technology is more reliable than traditional third-harmonic crystal. Epson Crystal's follow-up is also intended to solve network equipment by gradually releasing new products supporting HCSL and LVDS standards. Various differential output formats used in the EPSON crystal oscillator are dedicated to improving the customer's design freedom in a highly compact 5032 (5.0*3.2*1.0mm) package.
爱普生新推可编程晶体振荡器SG-8101CE晶振及SG-9101CG晶振【2018-08-20】
精工爱普生晶振公司将推广备受欢迎的可编程晶体振荡器系列，推出两个新开发的差分晶振系列产品。与同类产品相比，新型SG-8101晶振系列和SG-9101晶振系列具有更宽的工作温度范围和50％的电流消耗，而SG-8101晶振的频率容差更高66％。用户可以使用SG-Writer II* 1编程工具对SG-8101系列和扩频振荡器进行编程，从而降低SG-9101系列中的光谱EMI辐射。量产计划于2016年6月开始。

Seiko Epson Crystal will introduce the popular family of programmable crystal oscillators and introduce two newly developed differential crystal oscillators. Compared to similar products, the new SG-8101 crystal series and the SG-9101 crystal series have a wider operating temperature range and 50% current consumption, while the SG-8101 crystal has a 66% higher frequency tolerance. Users can program the SG-8101 Series and Spread Spectrum Oscillator with the SG-Writer II* 1 programming tool to reduce spectral EMI emissions in the SG-9101 Series. The mass production plan begins in June 2016.

近年来，越来越需要能够在多种环境中使用的多功率及多功能小型电子设备。包括极端户外和工厂安装，对具有出色频率稳定性和耐受各种温度的能力的晶体振荡器的需求已经增加。。

In recent years, there has been an increasing demand for multi-power and multi-function small electronic devices that can be used in a variety of environments. Including extreme outdoor and factory installations, the demand for crystal oscillators with excellent frequency stability and ability to withstand various temperatures has increased. .

自从1997年推出世界上第一台可编程晶振SG-8000系列以来，爱普生晶振公司为市场提供了小巧，精确的可编程振荡器。爱普生开发了新的SG-8101系列，配备了高效，紧凑和精密技术的仓库。和SG-9101系列结合使用QMEMS * 2，半导体和温度补偿晶体振荡器（TCXO）频率调节技术。

Since the introduction of the world's first programmable crystal oscillator SG-8000 series in 1997, Epson Crystal has provided the market with a compact, accurate programmable oscillator. Epson has developed the new SG-8101 series, equipped with efficient, compact and sophisticated technology warehouses. Combined with the SG-9101 series, QMEMS* 2, semiconductor and temperature compensated crystal oscillator (TCXO) frequency adjustment technology.

虽然这两个系列都提供了与早期爱普生产品相当的频率和其他参数的简单可编程性（SG-8101晶振为，SG-9001晶振为SG-9101晶振）,它们还具有更宽的工作温度范围，最高限制为105℃。除了2.5 mm x 2.0 mm封装，使电子制造商能够节省电路板空间外，石英晶体振荡器还将提供以下常用封装尺寸：3.2 mm x 2.5 mm，5.0 mm x 3.2 mm和7.0 mm x 5.0毫米。

Although both series offer simple programmability with frequency and other parameters comparable to earlier Epson products (SG-8101 crystal, SG-9001 crystal is SG-9101 crystal), they also have a wider operating temperature range The maximum limit is 105 °C. In addition to the 2.5 mm x 2.0 mm package, electronics manufacturers can save board space, and the oscillators are available in the following common package sizes: 3.2 mm x 2.5 mm, 5.0 mm x 3.2 mm, and 7.0 mm x 5.0 mm.

与同类产品相比，SG-8101系列振荡器的频率容差约为66％，电流消耗降低50％。使用扩频的SG-9101系列振荡器比可比数据消耗的电流低75％。用户可以使用Epson SG-Writer II（另售）将产品编程到所需的输出频率，以及所需的输出频率调制曲线和周期。

Compared with similar products, the SG-8101 series oscillators have a frequency tolerance of approximately 66% and a current consumption reduction of 50%. The spread-spectrum SG-9101 series oscillator consumes 75% less current than comparable data. Users can use the Epson SG-Writer II (sold separately) to program the product to the desired output frequency, as well as the desired output frequency modulation curve and period.

这些振荡器可在各种环境条件下使用。它们还将显着提高性能，降低功耗要求，快速开发周期和小批量生产。

These oscillators can be used in a variety of environmental conditions. They will also significantly improve performance, reduce power requirements, rapid development cycles and small batch production.

* 1 SG-Writer II和可选组件将通过软件更新（免费）支持SG-8002和SG-8003系列中的现有产品以及新SG-8101和SG-9101系列中的产品。

* 2 QMEMS：
QMEMS结合了“石英”，一种具有优异频率稳定性和高精度的优异特性的晶体材料，以及“MEMS”（微机电系统）。
QMEMS器件通过微晶加工工艺在晶体材料上而不是像MEMS这样的半导体材料上生产，在紧凑的封装中提供高性能。QMEMS是Seiko Epson Corporation的注册商标。
爱普生晶振系列晶体振荡器【2018-08-02】
在过去的几年中,娱乐,游戏和便携式市场的电子设备加速的增长推动了石英晶体和晶体振荡器的需求不断增加,甚至达到了前所未有的生产水平以及生产技术.早在十几年前,爱普生晶振的销量以及生产技术还跟不上市场的需求.比如2012晶振会无法正常出货,体积较小,生产达不到技术要求.但是随着这几年的市场需求量的增长,爱普生晶振也在不断的提升生产技术,不断的改进不足,从而使得更小尺寸1612封装晶振可以正常批量出货.

一直以来石英晶体振荡器的高Q值和稳定的温度特性,使得其在消费,商业,工业以及军事产品中起到重要的作用.自2000年至2001年”互联网”市场崩溃以来,对石英晶体以及振荡器的需求每年稳定增长4%至10%.

在早些时候,典型的GSM手机有四组不同的压电频率控制和发电组件：RF SAW滤波器（使用压电钽酸锂或铌酸锂的900 MHz至2 GHz）用于在天线和收发器芯片组之间进行传输和接收滤波;如果使用超外差降频转换,则使用SAW滤波器（主要使用石英为50至400 MHz）; TCXO（13/26 MHz,使用石英晶体）作为收发器合成器中的时钟参考,用于信道化;和音叉（使用石英晶体的32.768 kHz）用于基带部分的待机时钟.

后来,直接转换技术的成功开发在许多GSM手机中废弃了IF SAW滤波器.几年前,带有片上数字补偿晶体振荡器（DCXO）电路的GSM收发器芯片组消除了对TCXO晶振的需求.但是,仍然需要片外石英晶体.

现在的手持设备似乎没有变小,实际上它们已经变得非常小了,但是手机虽小,功能却大的多.以适应消费者多频段,多模,DSC,DVC,MP3,GPS,互联网接入,蓝牙,DTV等所需的更多功能.跟之前想法相反,随着时间的推移,需要越来越少的片外石英晶体,晶体振荡器和SAW元件,现在手机中存在着更多的石英晶体,音叉晶振,晶体振荡器,高精度温补晶振等.虽然这些组件的独特制造和封装要求使它们几乎不可能集成到成熟的硅IC平台上.

在有线和无线市场的蓬勃发展,从而使得石英晶体以及其高频SAW声表面滤波器得到广泛应用.

传统的石英晶振尺寸型号以4.1*1.5,3.2*1.5以及2.0*1.2mm提供.现在也是将这种石英音叉的厚度达到0.4毫米或者更低,从而适用于薄型产品的使用.小于5032封装石英晶振通常需要在真空中密封从而维持阻抗完整性.低兆赫兹小尺寸石英晶振的坏料也需要倾斜于石英晶体边缘,其变薄.从而有效的获得能量.在未来的几年内将出现更小尺寸的石英晶体(1.6*1.0以及1.0*0.8mm)晶振的使用.全球石英晶体供应商正在为这些小尺寸晶振工作.

很多人都不知道相当多的石英产品(石英晶体,石英音叉晶体,石英陀螺传感器等)正在制造一些MEMS(微机电系统)处理.如光刻,金属化,蚀刻,牺牲层沉积去除,金蚀刻保护等.实际上,复杂的加工步骤非平面金属化方案.由于石英晶体的硬度而耐蚀刻,高度各向异性的石英晶体的不同蚀刻速率等,使得小型化的石英晶体产品的加工更加技术上与许多基于硅的MEMS工艺相比具有挑战性.Epson Toyocom几年前创造了“QMEMS”这一术语,以认识到将石英和MEMS技术与下一代石英晶体器件联系起来的重要性.

Transko crystal特兰斯科温补晶振选型列表【2018-07-21】

特兰斯科晶振公司总部位于美国加利福尼亚州。公司自1992年成立以来一直致力于研发生产高精密TCXO温补晶振.从1993年开始在美国加利福尼亚州拉古纳山开设制造工厂,引进高端生产设备,在历经四年的时间后开始正式生产TCXO温补晶振以及VCXO压控晶振.在这一年,Transko特兰斯科晶振公司取得了非常大的增长突破。

图片	零件号	符合RoHS	封装	逻辑（输出）	供电电压	频率
	TX-O	合规	2.5 X 2.0陶瓷 4焊盘SMD	截断正弦波	2.5V，2.8V，3.0V，3.3V	16.000MHz~26.000MHz
	TX-U	合规	2.0 X 1.6陶瓷 4垫SMD	截断正弦波	1.8V，2.5V 2.8V，3.0V，3.3V	13.000MHz~52.000MHz
	TX-N	合规	2.5 X 2.0陶瓷 4焊盘SMD	截断正弦波	1.8V，2.5V，2.8V	13.000MHz~52.000MHz
	TX-L	合规	3.2 X 2.5陶瓷 4垫SMD	CMOS 削波正弦波	1.8V，2.5V 2.8V，3.0V，3.3V	4.000MHz~54.000MHz
	TX-M	合规	3.2 X 2.5陶瓷 4焊盘SMD （模拟补偿）	截断正弦波	1.8V，2.5V 2.8V，3.0V，3.3V	16.000MHz~26.000MHz
	TX-Q	合规	3.2 X 2.5陶瓷 4垫SMD	CMOS	1.8V，2.5V 2.8V，3.0V，3.3V	4.000MHz~54.000MHz
	TFC5	合规	5.0 X 3.2陶瓷 4垫SMD	CMOS 削波正弦波	3.3V，5.0V	10.000MHz~40.000MHz
	TX-J	合规	5.0 X 3.2陶瓷 4垫SMD	CMOS 削波正弦波	3.3V，5.0V	10.000MHz~40.000MHz
	TE-J	合规	5.0 X 3.2 Epoxy 4 Pad SMD	CMOS 削波正弦波	1.8V，2.5V，3.3V	13.000MHz~52.000MHz
	TX-T	合规	5.0 X 3.2陶瓷 4垫SMD	CMOS 削波正弦波	1.8V，2.5V，2.8V 3.0V，3.3V，5.0V	4.000MHz~54.000MHz
	TFC	合规	7.0 X 5.0陶瓷 SMD	CMOS 削波正弦波	3.3V，5.0V	5.000MHz~40.000MHz
	TE-S	合规	7.0 X 5.0 Epoxy 4 Pad SMD	CMOS 削波正弦波	1.8V，2.5V，3.3V	10.000MHz~40.000MHz
	TXCS	合规	7.0 X 5.0陶瓷 SMD	LVCMOS 截断正弦波	3.3V	10.000MHz~16.376MHz
	TX-K	合规	7.0 X 5.0陶瓷 4垫SMD	CMOS 削波正弦波	2.5V，3.3V	5.000MHz~52.000MHz
	TX-P	合规	7.0 X 5.0陶瓷 4垫SMD	CMOS 削波正弦波	3.3V，5.0V	5.000MHz~40.000MHz
	TX-S	合规	7.0 X 5.0陶瓷 SMD	CMOS 削波正弦波	3.3V，5.0V	5.000MHz~50.000MHz
	TX-SB	合规	7.0 X 5.0陶瓷 SMD	截断正弦波	3.3V，5.0V	10.000MHz~27.000MHz
	TX-R	合规	7.0 X 5.0陶瓷 4垫SMD	CMOS	3.3V，5.0V	1.250MHz~156.250MHz
	TX-V	合规	7.0 X 5.0陶瓷 SMD	CMOS 削波正弦波	3.3V，5.0V	5.000MHz~40.000MHz
	TX-A	合规	14针DIP通孔 4.5mm高度	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-AL	合规	14针DIP通孔 4.5mm高度	LVDS LVPECL	3.3V，5.0V	750kHz~800.000MHz
	TX-B	合规	14针DIP通孔 8.5mm高度	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-BL	合规	14针DIP通孔 8.5mm高度	LVDS LVPECL	3.3V，5.0V	750kHz~800.000MHz
	TX-C	合规	20.0 X 20.0 DIP通孔	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-d	合规	14.3 X 8.7 FR4 PCB 4焊盘SMD	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-D6	合规	14.3 X 8.7 FR4 PCB 6焊盘SMD	CMOS / TTL LVDS / LVPECL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-E	合规	18.3 X 11.7 PCB SMD	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-EL	合规	18.3 X 11.7 PCB SMD	LVDS LVPECL	3.3V，5.0V	750kHz~800.000MHz
	TX-F4	合规	11.4 X 9.8 PCB 4焊盘SMD	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TX-F6	合规	11.4 X 9.8 PCB 6焊盘SMD	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	VTXLN	合规	11.4 X 9.6 PCB 4焊盘SMD -150dBC / Hz @ 1kHz	HCMOS	3.3V，5.0V	10.000MHz~20.000MHz
	TX-G	合规	11.4 X 11.6 PCB 鸥翼式SMD	CMOS / TTL CSW / SW	3.3V，5.0V	1.250MHz~50.000MHz
	TX-H	合规	14针DIP 密封通孔	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	TFL	合规	14针DIP 密封通孔	LVDS LVPECL	3.3V，5.0V	750kHz~800.000MHz
	THH	合规	8针DIP 密封通孔	CMOS / TTL CSW / SW	3.3V，5.0V	1kHz~800.000MHz
	THL	合规	8针DIP 密封通孔	LVDS LVPECL	3.3V，5.0V	750kHz~800.000MHz

The company is Transko crystal in California, USA. Since its establishment in 1992, the company has been committed to the development and production of high-precision TCXO temperature-compensated crystal oscillators. Since 1993, it has opened a manufacturing plant in Laguna Hills, California, USA, and introduced high-end production equipment. After four years, it began to officially produce TCXO. Temperature-compensated crystal oscillators and VCXO voltage-controlled crystal oscillators. In this year, Transko Tranco Crystal has achieved a very large growth breakthrough.

ILSI晶振汽车级晶振型号【2018-07-16】

美国ILSI Crystal高温汽车频率控制石英晶振产品具有AEC-Q200认证和PPAP I级，II级和III级文档。艾尔西晶振产品符合AEC-Q200认证,晶体产品采用领先的表面贴装封装配置,可提供各种频率,频率容差和极高的稳定性,工作温度范围宽可高达-40~+125度.汽车级频率控制产品适用于工业市场和汽车市场中的许多客户，因为这些产品满足汽车应用中极端恶劣环境的最严格要求。

The US ILSI Crystal high temperature automotive frequency control quartz crystal product has AEC-Q200 certification and PPAP Class I, Class II and Class III documentation. Elsie Crystal products are AEC-Q200 compliant, and crystal products are available in leading surface mount packages that offer a wide range of frequencies, frequency tolerances and high stability over a wide operating temperature range of -40 to +125 degrees. Automotive-grade frequency control products are suitable for many customers in the industrial and automotive markets, as these products meet the most stringent requirements of extreme environments in automotive applications.

图片	型号	系列	尺寸	厚度	频率	规格书
	IXA24	SMD	3.2 x 1.5	0.9	32.768kHz
	IXA14	SMD	2.5 x 2.0	0.65	12MHz - 54MHz
	IXA20	SMD	5.0 x 3.2	0.85	7.6MHz - 54MHz
	IXA18	SMD	5.0 x 3.2	1.1	7.6MHz - 54MHz
	IXA16	SMD	3.2 x 2.5	0.8	8MHz - 66MHz
	IXA12	SMD	2.0 x 1.6	0.55	16MHz - 54MHz
	IXA10	SMD	1.6 x 1.2	0.4	24MHz - 50MHz

汽车级ILSI晶振可提供LVCMOS输出振荡器,汽车级系列石英晶体振荡器适合在极端的环境下正常工作.

Automotive grade ILSI crystal oscillators are available with LVCMOS output oscillators, and automotive grade quartz crystal oscillators are ideal for operation in extreme environments.

图片	型号	输出方式	封装	尺寸	厚度	频率范围	规格书
	ISA20	LVCMOS	SMD	5.0 x 3.2	1.3	1MHz - 156.25MHz
	ISA16	LVCMOS	SMD	3.2 x 2.5	1.1	1MHz - 156.25MHz
	ISA12	LVCMOS	SMD	2.5 x 2.0	1.0	1MHz - 60MHz
	ISA11	LVCMOS	SMD	2.0 x 1.6	0.8	2.5MHz - 60MHz

ILSI CRYSTAL艾尔西石英晶体型号列表【2018-07-11】

ILSI石英晶振产品具有压电特性,采用表面贴片式器件（SMD）通孔，金属罐和陶瓷封装配置。石英晶体及电压石英晶振是目前使用最常见的压电谐振器类型。石英晶振水晶产品可根据客户需要提供定制的标准频率，具有严格的稳定性和低有效串联电阻（ESR）等定制参数，并可根据客户提供要求定制.

产品图	规格型号	封装	尺寸	高度	频率	规格书
	IXA24	SMD	3.2 x 1.5	0.9	32.768kHz
	IXA14	SMD	2.5 x 2.0	0.65	12MHz - 54MHz
	IXA20	SMD	5.0 x 3.2	0.85	7.6MHz - 54MHz
	IXA18	SMD	5.0 x 3.2	1.1	7.6MHz - 54MHz
	IXA16	SMD	3.2 x 2.5	0.8	8MHz - 66MHz
	IXA12	SMD	2.0 x 1.6	0.55	16MHz - 54MHz
	IXA10	SMD	1.6 x 1.2	0.4	24MHz - 50MHz
	HC49U	LEADED	4.7 x 11.1	13.45	1.3MHz - 160MHz
	IL3W	SMD	1.0 x 1.6	0.5	32.768kHz
	HC49USM4	SMD	4.8 x 12.5	4.5或5.2	3.2MHz - 100MHz
	IL3R	SMD	1.4 x 7.0	1.4	32.768kHz的
	ILCX21	SMD	1.0 x 1.2	0.33	36MHz - 80MHz
	IL3T	SMD	1.2 x 2.0	0.6	32.768kHz
	ILCX20	SMD	1.2 x 1.6	0.4	26MHz - 60MHz
	39	LEADED	3.2 x 10.5	10.5	3MHz - 100MHz
	38/26/15	LEADED	3/2/1 x 8/6/5	请参阅部件号指南	30kHz - 192kHz
	UM1 / UM4 / UM5	LEADED	3.2 x 8.0	请参阅部件号指南	7MHz - 160MHz
	HC49US	LEADED	4.7 x 11.1	请参阅部件号指南	3.2MHz - 100MHz
	ILCX19	SMD	2.0 x 1.6	0.55	16MHz - 72MHz
	ILCX18	SMD	2.0 x 2.5	0.55	12MHz - 80MHz
	ILCX13	SMD	2.5 x 3.2	0.9	10MHz - 150MHz
	ILCX10	SMD	5.0 x 7.0	1.3	6MHz - 100MHz
	ILCX09	SMD	3.5 x 6.0	1.1	8MHz - 100MHz
	ILCX08	SMD	3.5 x 6.0	1.1	8MHz - 100MHz
	ILCX07	SMD	5.0 x 3.2	1.0	8MHz - 150MHz
	ILCX04	SMD	5.0 x 7.0	1.3	6MHz - 150MHz
	ILCX03	SMD	3.2 x 5.0	1.3	10MHz - 100MHz
	IL3Y	SMD	1.5 x 4.1	0.9	32.768kHz
	IL3X	SMD	1.5 x 3.2	0.9	32.768kHz
	IL3M	SMD	3.8 x 8.0	2.5	32.768kHz
	HC49USM	SMD	4.7 x 13.0	请参阅部件号指南	3.2MHz - 100MHz

ILSIcrystal products have piezoelectric properties and are available in surface mount devices (SMD) vias, metal cans and ceramic packages. Quartz crystals and voltage quartz crystals are the most common types of piezoelectric resonators currently in use. Quartz crystal crystal products can be customized according to customer's needs, with strict stability and low effective series resistance (ESR) and other custom parameters, and can be customized according to customer requirements.

欧美进口晶振相关资讯文章

Fujicom富士通晶振公司简介

Frequency晶振公司简介

卫星站使用高端Frequency晶振型号大全

TranskoCrystal石英晶振完整型号一览

SAW声表面滤波器

石英晶体与高频晶体振荡器的区别

OCXO Oscillator恒温晶体振荡器

Transko crystal特兰斯科晶振VCXO振荡器型号列表【2018-07-07】

Transko Crystal Electronics,Inc.公司成立于1992年,总部位于美国加利福尼亚州阿纳海姆.与其它晶振公司不同的是,Transko Crystal是ISO 9001认证的频率控制设备解决方案优质供应商.具有快速的交付能力,TCXO CRYSTAL能够在短短72小时内提供产品.同时特兰斯科晶振VCXO振荡器系列具有低损耗,低耗能,低抖动,低电压等功能.

Image	Part No.	RoHS/Reach	Package	Logic (Output)	Supply Voltage(s)	Frequency
	TSMV2	Compliant	2.5 X 2.0 Ceramic 4 PAD SMD	HCMOS	3.3V	1.250MHz ~ 70.000MHz
	TV22A	Compliant	2.5 X 2.0 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	10.000MHz ~1500.000MHz
	TSMV3	Compliant	3.2 X 2.5 Ceramic 4 PAD SMD	HCMOS	1.8V, 2.5V, 3.3V	1.250MHz ~ 55.000MHz
	TV32A	Compliant	3.2 X 2.5 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	10.000MHz ~1500.000MHz
	TVL5	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	LVDS	2.5V, 3.0V, 3.3V	0.750MHz ~ 800.000MHz
	TVP5	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	LVPECL	2.5V, 3.0V, 3.3V	0.750MHz ~ 800.000MHz
	TSMV5	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	HCMOS	2.5V, 3.3V, 5.0V	1.000MHz ~200.000MHz
	TV53A	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	10.000MHz ~1500.000MHz
	TVC5	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	74.1758MHz 74.250MHz
	TVD5	Compliant	5.0 X 3.2 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	148.3516MHz 148.500MHz
	TVP	Compliant	7.0 X 5.0 Ceramic 6 PAD SMD	LVDS LVPECL	2.5V, 2.8V, 3.3V	0.7500MHz ~ 800.000MHz
	TSMV	Compliant	7.0 X 5.0 Ceramic 6 PAD SMD	HCMOS	2.5V, 3.3V, 5.0V	0.100MHz ~ 200.000MHz
	TV75A	Compliant	7.0 X 5.0 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	10.000MHz ~1500.000MHz
	TVC	Compliant	7.0 X 5.0 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	74.1758MHz 74.250MHz
	TVD	Compliant	7.0 X 5.0 Ceramic 6 PAD SMD	HCMOS LVDS LVPECL	2.5V, 3.3V	148.3516MHz 148.500MHz
	TPV	Compliant	14.0 X 9.8 Plastic 4 PIN SMD	HCMOS	3.3V, 5.0V	1.000 MHz ~ 200.000 MHz
	TSVC	Compliant	14.3 X 8.7 FR4 PCB 4 PAD SMD	HCMOS LVDS LVPECL	3.3V, 5.0V	0.001MHz ~800.000MHz
	TSVD	Compliant	14.3 X 8.7 FR4 PCB 4 PAD SMD	HCMOS	3.3V, 5.0V	1.000MHz ~800.000MHz
	TSVE	Compliant	14.3 X 8.7 FR4 PCB 4 PAD SMD	SINEWAVE	3.3V, 5.0V	100.000MHz ~ 125.000MHz
	TSVF	Compliant	14.3 X 8.7 FR4 PCB 6 PAD SMD	HCMOS LVDS LVPECL	3.3V, 5.0V	0.001MHz ~ 800.000MHz
	VCXO	Compliant	8PIN DIP / 14PIN DIP Through hole	HCMOS SINEWAVE	3.3V, 5.0V	1KHz ~ 800.000MHz

Transko Crystal Electronics, Inc. was founded in 1992 and is headquartered in Anaheim, California. Unlike other crystal oscillators, Transko Crystal is an ISO 9001 certified supplier of frequency control equipment solutions with fast delivery. Capability, TCXO CRYSTAL can provide products in as little as 72 hours. At the same time, Trancos crystal oscillator VCXO oscillator series has low loss, low energy consumption, low jitter, low voltage and other functions.

欧美进口晶振相关资讯文章

Fujicom富士通晶振公司简介

Frequency晶振公司简介

卫星站使用高端Frequency晶振型号大全

TranskoCrystal石英晶振完整型号一览

SAW声表面滤波器

石英晶体与高频晶体振荡器的区别

OCXO Oscillator恒温晶体振荡器

Transko Crystal Oscillator晶体振荡器型号目录【2018-07-04】

Transko Crystal Oscillator晶体振荡器自1992年公司成立后的第四年开始研发生产成品晶体和振荡器。而后的一年便快速的推出VCXO CRYSTAL压控晶体振荡器，及TCXO CRYSTAL温补晶振。由于Transko Crystal Oscillator晶体振荡器得到市场的认可，订单量大境，取得了巨大的突破。使的Transko Crystal公司不得不搬迁到加利福尼亚洲阿海海姆的更大工厂。

图片	部件号	符合RoHS	封装尺寸	输出方式	供电电压	频率
	TSM16	合规	1.6 X 1.2陶瓷 4 PAD SMD	HCMOS	1.8V，2.5V，3.3V	1.000MHz~80.000MHz
	TSL21	合规	2.0 X 1.6陶瓷 4 PAD SMD	HCMOS	1.8V，2.5V，3.3V，5.0V	32.768kHz的
	TSM21	合规	2.0 X 1.6陶瓷 4 PAD SMD	HCMOS	1.8V，2.5V，3.3V	1.000MHz~80.000MHz
	TLP22	合规	2.5 X 2.0陶瓷 4 PAD SMD	HCMOS	1.8V~3.3V （最大10uA）	32.768kHz的
	TP22	合规	2.5 X 2.0陶瓷 4 PAD SMD	HCMOS	1.8V~3.3V	1.000MHz~200.000MHz
	TP22A	合规	2.5 X 2.0陶瓷 6 PAD SMD	HCMOS LVDS LVPECL	2.5V，3.3V	10.000MHz~1500.000MHz
	TSL22	合规	2.5 X 2.0陶瓷 4 PAD SMD	HCMOS	1.8V，2.5V，2.8V 3.0V，3.3V	32.768kHz （156kHz~1MHz可用）
	TSM22	合规	2.5 X 2.0陶瓷 4 PAD SMD	HCMOS	1.0V~5.0V	0.750MHz~125.000MHz
	TEL31	合规	3.2 X1.5陶瓷 4 PAD SMD	HCMOS	1.8V~3.3V （最大1.5uA）	32.768kHz的
	TEL32	合规	3.2 X 2.5陶瓷 4 PAD SMD	HCMOS	1.8V~5.0V （最大1.5uA）	32.768kHz的
	TG 32	合规	3.2 X 2.5陶瓷 6 PAD SMD	HCMOS LVDS LVPECL	2.5V，3.3V	10.000MHz~1500.000MHz
	THS32	合规	3.2 X 2.5陶瓷 6 PAD SMD	HCMOS	2.5V~3.3V	2.500MHz~55.000MHz
	TLP32	合规	3.2 X 2.5陶瓷 4 PAD SMD	HCMOS	1.8V~3.3V （最大10uA）	32.768kHz的
	TLSM3	合规	3.2 X 2.5陶瓷 6 PAD SMD	LVDS	2.5V~3.3V	13.500MHz~156.250MHz
	TP32	合规	3.2 X 2.5陶瓷 4 PAD SMD	HCMOS	1.8V~3.3V	1.000MHz~200.000MHz
	TSM32	合规	3.2 X 2.5陶瓷 4 PAD SMD	HCMOS	1.0V~5.0V	1.000MHz~156.250MHz
	TSL32	合规	3.2 X 2.5陶瓷 4 PAD SMD	HCMOS	1.8V~5.0V	32.768kHz （25kHz~1MHz可用）
	TCP53	合规	5.0 X 3.2陶瓷 4 PAD SMD	HCMOS 扩频低EMI	2.5V，3.3V	1.000MHz~200.000MHz
	TSM53	合规	5.0 X 3.2陶瓷 4 PAD SMD	HCMOS TTL CMOS / TTL	1.0V~5.0V	1.000MHz~200.000MHz
	TGM5	合规	5.0 X 3.2陶瓷 6 PAD SMD	LVDS LVPECL	2.5V~3.3V	25.000MHz~200.000MHz
	TLSM5	合规	5.0 X 3.2陶瓷 6 PAD SMD	LVDS	2.5V~3.3V	12.000MHz~800.000MHz
	TP53A	合规	5.0 X 3.2陶瓷 6 PAD SMD	HCMOS LVDS LVPECL	2.5V，3.3V	10.000MHz~1500MHz
	TPSM5	合规	5.0 X 3.2陶瓷 6 PAD SMD	LVPECL	2.5V~3.3V	0.750MHz~800.000MHz
	TSL53	合规	5.0 X 3.2陶瓷 4 PAD SMD	CMOS	1.0V~5.0V	32.768kHz （25kHz~1MHz可用）
	TCP75	合规	7.0 X 5.0陶瓷 4 PAD SMD	HCMOS 扩频低EMI	2.5V，3.3V	1.000MHz~200.000MHz
	TP75A	合规	7.0 X 5.0陶瓷 6 PAD SMD	HCMOS LVDS LVPECL	2.5V，3.3V	10.000MHz~1500MHz
	TSL75	合规	7.0 X 5.0陶瓷 4 PAD SMD	HCMOS	1.8V~5.0V	32.768kHz （25kHz~1MHz可用）
	TSM75	合规	7.0 X 5.0陶瓷 4 PAD SMD	HCMOS	1.8V，2.5V，2.8V 3.0V，3.3V，5.0V	1.000MHz~200.000MHz
	TLSM	合规	7.0 X 5.0陶瓷 6 PAD SMD	LVDS	2.5V~3.3V	12.000MHz~800.000MHz
	TPSM	合规	7.0 X 5.0陶瓷 6 PAD SMD	LVPECL	2.5V~3.3V	12.000MHz~800.000MHz
	THCSL	合规	7.0 X 5.0陶瓷 6 PAD SMD	HCSL	2.5V，3.3V	13.500MHz~200.000MHz
	TGM	合规	7.0 X 5.0陶瓷 6 PAD SMD	LVDS LVPECL	2.5V，3.3V	25.000MHz~200.000MHz
	TSP	合规	14.0 X 9.8塑料 4 PIN SMD	HCMOS TTL CMOS / TTL	3.3V，5.0V	1.000MHz~125.000MHz
	TLS	合规	14.5 X 9.2 PCB基座 6P SMD	LVDS	2.5V~5.0V	0.750MHz~800.000MHz
	TPS	合规	14.5 X 9.2 PCB基座 6P SMD	LVPECL	2.5V，3.3V	12.000MHz~800.000MHz
	TPS-1236	合规	14.3 X 8.7 PCB基座 4P SMD	HCMOS	3.3V	24.576MHz~49.152MHz
	SXO	合规	8脚DIP / 14脚DIP 通孔	CMOS TTL HCMOS / TTL	1.8V~5.0V	200Hz~300.000MHz
	SXS	合规	8脚DIP / 14脚DIP 通孔	CSW	3.3V，5.0V	6.000MHz~190.000MHz
	SXL	合规	8脚DIP / 14脚DIP 通孔	LVDS	3.3V，5.0V	0.750MHz~800.000MHz
	SXP	合规	8脚DIP / 14脚DIP 通孔	PECL	3.3V，5.0V	0.750MHz~800.000MHz
	ECP	合规	14针DIP全尺寸通孔	PECL	3.3V，5.0V	0.750MHz~800.000MHz
	EXO	合规	14针DIP全尺寸通孔	ECL	-5.2V	10.000MHz~250.000MHz

The TranskoCrystal Oscillator crystal oscillator has been developing and producing crystals and oscillators since the company was founded in 1992, fourth years ago. In the following year, VCXO CRYSTAL voltage controlled crystal oscillator and TCXO CRYSTAL temperature compensated crystal oscillator were quickly launched. As the Transko Crystal Oscillator crystal oscillator has been recognized by the market, the volume of orders has been greatly improved, and great breakthroughs have been made. The Transko Crystal company had to move to a larger factory in aheim, California.

石英晶体与高频晶体振荡器的区别【2018-06-30】
具有传统结构的小型化晶体芯片（左图）减小了电极的面积（以红色表示）。
用H形槽结构制造芯片提供了更大的电极面积并提高了电解效率。这种设计使小型化晶体的CI值与普通晶体的CI值一样低（右图）。

Miniaturizing crystal chips with a conventional structure (left image) reduces the area of the electrodes (indicated in red).
Fabricating the chips with an H-groove structure provides a larger electrode area and raises electrolytic efficiency. This design enables miniaturized crystal with CI values as low as those on ordinary-sized crystals (right image).

然而，使用QMEMS技术制造的晶体的CI值保持不变，与常规晶体的水平相当，即使晶体尺寸减小。

The CI value of a crystal fabricated using QMEMS technology, however, remains constant, at a level equivalent to that of conventional crystals, even as crystal size decreases.

HFF晶体单元/ HFF晶体振荡器（高频基波）

为了增加振荡器的频率，必须使芯片更薄，但是传统的处理方法对制造薄芯片施加了限制。

In order to increase the frequency of oscillators, it is necessary to make the chip thinner, but conventional processing methods imposed limitations on producing thin chips.

通过光刻仅处理芯片的振荡部分，能够在不损害晶体芯片强度的情况下实现高频基波，从而形成厚度仅为几微米的极薄的倒置台面结构。

A high-frequency fundamental was enabled without compromising crystal chip strength by photolithographically processing only the oscillating portion of the chip so as to form an extremely thin inverted-mesa structure having a thickness of only several microns.

基频高频振荡的优点

高频基波振荡有助于稳定高速大容量数据传输，因为可以抑制附近的高频分量。

High-frequency fundamental oscillation helps stabilize high-speed, high-volume data transmissions because nearby high-frequency components can be suppressed.

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