Crystal Oscillators 2008: The Decade Ahead Considers Key End Use and Design Trends for Each Product Type.DUBLIN Dublin, city, Republic of Ireland Dublin, Irish Baile Átha Cliath, county borough (1991 pop. 915,516), Leinster, capital of the Republic of Ireland, on Dublin Bay at the mouth of the Liffey River. , Ireland Ireland, Irish Eire (âr`ə) [to it are related the poetic Erin and perhaps the Latin Hibernia], island, 32,598 sq mi (84,429 sq km), second largest of the British Isles. -- Research and Markets (http://www.researchandmarkets.com/research/a6b1d6/crystal_oscillator oscillator Mechanical or electronic device that produces a back-and-forth periodic motion. A pendulum is a simple mechanical oscillator that swings with a constant amplitude, requiring the addition of energy at each swing only to compensate for the energy lost because of air ) has announced the addition of the "Crystal Oscillators An oscillator that uses a quartz crystal to generate a frequency. Such devices generally output a fixed frequency, but some can be controlled by a tuning voltage over a small range. Contrast with VCO. 2008: The Decade Ahead" report to their offering. "Crystal Oscillators 2008: The Decade Ahead" is an assessment of the market for crystals and crystal-based oscillators. World shipments and revenues are provided for each product type: crystals, uncompensated uncompensated (  n·kômˑ·p crystal oscillators (XO), temperature
compensated compensated /com·pen·sat·ed/ (kom´pen-sa?tid) counterbalanced; offset. crystal oscillators (TCXO TCXO Temperature Compensated Crystal OscillatorTCXO Temperature-Controlled Crystal Oscillator ), voltage The force, or pressure, of electricity. Also known as "potential." "Voltage drop" is the difference in voltage from one end of an electrical circuit to the other. For instructional purposes, voltage is often compared to water pressure. See volt-amps and current. controlled crystal oscillators (VCXO VCXO Voltage Controlled Crystal Oscillator ), and oven  It has been suggested that , , , , and be merged into this article or section. controlled crystal oscillators (OCXO OCXO Oven Controlled Crystal OscillatorOCXO Oven Compensated Crystal Oscillator ). Each product type is further delineated de·lin·e·ate tr.v. de·lin·e·at·ed, de·lin·e·at·ing, de·lin·e·ates 1. To draw or trace the outline of; sketch out. 2. To represent pictorially; depict. 3. by end-application, stability, geographical consumption, regional output, output frequency ranges and packaging techniques. Crystal oscillators are also broken down according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. output waveform The shape of a signal. See wavelength, sine wave and square wave. types. Key end use and design trends are considered for each product type. Key Topics Covered: 1.0 Executive Summary 1.1 Definitions and explanations 1.1.1 Output waveform type - CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. 1.1.2 Output waveform type - TTL (1) (Time To Live) A parameter in a network packet that sets a time limit to its validity. In order to prevent an IP packet from propagating endlessly through the network, the value in the TTL field is reduced by each router. 1.1.3 Packaging type - SMD (1) (Storage Module Device) A high-performance hard disk interface used with minis and mainframes that transfers data in the 1-4 MBytes/sec range (SMD-E provides highest rate). See hard disk. 1.1.4 Packaging type - pin/through-hole type 1.2 Report Progress and flow 2.0 Introduction to Crystals 2.1 Important crystal specifications 2.2 Applications of crystals 2.3 Implications of crystal stability 2.4 Classification of crystals according to stability 2.5 Output frequency 2.6 Packaging techniques for crystals 2.7 Regional shares 3.0 Introduction to Crystal Oscillators 3.1 History of crystal oscillators 3.2 Introduction to classification of crystal oscillators 3.2.1 Uncompensated Crystal Oscillators (XO) 3.2.2 Temperature Compensated Crystal Oscillators (TCXO) 3.2.3 Voltage Controlled Crystal Oscillators (VCXO) 3.2.4 Oven Controlled Crystal Oscillators (OCXO) 3.3 Applications of oscillators 3.4 Output stability types 3.5 Output frequency types 3.6 Output waveform types 3.7 Packaging techniques 3.8 Regional shares 4.0 Uncompensated Crystal Oscillators (XO) 4.1 Industrial applications 4.1.1 Examples of XO applications 4.2 Output stability types 4.3 Output frequency types 4.4 Output waveform type 4.5 Packaging techniques 4.6 Regional shares 5.0 Temperature Compensated Crystal Oscillators (TCXO) 5.1 Applications 5.1.1 Examples of TCXO applications 5.2 Output stability types 5.3 Output frequency types 5.4 Output waveform types 5.5 Packaging techniques 5.6 Regional Shares 6.0 Voltage Controlled Crystal Oscillators (VCXO) 6.1 Applications 6.1.1 Examples of VCXO applications 6.2 Output stability types 6.3 Output frequency types 6.4 Output waveform types 6.5 Packaging techniques 6.6 Regional shares 7.0 Oven Controlled Crystal Oscillators (OCXO) 7.1 Applications 7.1.1 Examples of OCXO applications 7.2 Output stability types 7.3 Output frequency types 7.4 Packaging techniques 7.5 Output waveform types 7.6 Regional shares 8.0 Conclusions TABLES AND FIGURES Table 2-1: Global revenues for crystals (2008-2013) Table 2-2 Global shipments for crystals (2008-2013) Table 2-3: World crystal shipments by application (2008-2013) Table 2-4: World crystal shipments by stability (2008-2013) Table 2-5: World crystal shipments by frequency (2008-2013) Table 2-6: World crystal shipments by package (2008-2013) Table 2-7: World crystal shipments by region (2008-2013) Table 3-1: Global revenues for oscillators (2008-2013) Table 3-2: Global shipments for oscillators (2008-2013) Table 3-3: World oscillator shipments by application (2008-2013) Table 3-4: World oscillator shipments by stability (2008-2013) Table 3-5: World oscillator shipments by frequency (2008-2013) Table 3-6: World oscillator shipments by waveform (2008-2013) Table 3-7: World oscillator shipments by package (2008-2013) Table 3-8: World oscillator shipments by region (2008-2013) Table 4-1: Global revenues for XOs (2008-2013) Table 4-2: Global shipments for XOs (2008-2013) Table 4-3: World XO shipments by applications (2008-2013) Table 4-4: World XO shipments by stability (2008-2013) Table 4-5: World XO shipments by frequency (2008-2013) Table 4-6: World XO shipments by waveform (2008-2013) Table 4-7: World XO shipments by package (2008-2013) Table 4-8: World XO shipments by region (2008-2013) Table 5-1: Global revenues for TCXOs (2008-2013) Table 5-2: Global shipments for TCXOs (2008-2013) Table 5-3: World TCXO shipments by application (2008-2013) Table 5-4: World TCXO shipments by stability (2008-2013) Table 5-5: World TCXO shipments by frequency (2008-2013) Table 5-6: World TCXO shipments by waveform (2008-2013) Table 5-7: World TCXO shipments by package (2008-2013) Table 5-8: World TCXO shipments by region (2008-2013) Table 6-1: Global revenues for VCXOs (2008-2013) Table 6-2: Global shipments for VCXOs (2008-2013) Table 6-3: World VCXO shipments by application (2008-2013) Table 6-4: World VCXO shipments by stability (2008-2013) Table 6-5: World VCXO shipments by frequency (2008-2013) Table 6-6: World VCXO shipments by waveform (2008-2013) Table 6-7: World VCXO shipments by package (2008-2013) Table 6-8: World VCXO shipments by region (2008-2013) Table 7-1: Global revenues for OCXOs Table 7-2: Global shipments for OCXOs Table 7-3: World OCXO shipments by application (2008-2013) Table 7-4: World OCXO shipments by stability (2008-2013) Table 7-5: World OCXO shipments by frequency (2008-2013) Table 7-6: World OCXO shipments by packaging (2008-2013) Table 7-7: World OCXO shipments by waveform (2008-2013) Table 7-8: World OCXO shipments by region (2008-2013) For more information visit http://www.researchandmarkets.com/research/a6b1d6/crystal_oscillator |
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