Investors love stocks that consistently beat the Street without getting ahead of their fundamentals and risking a meltdown. The best stocks offer sustainable market-beating gains, with robust and improving financial metrics that support strong price growth. Does Taiwan Semiconductor (NYSE: TSM ) fit the bill? Let's look at what its recent results tell us about its potential for future gains.
What we're looking for
The graphs you're about to see tell Taiwan Semi's story, and we'll be grading the quality of that story in several ways:
What the numbers tell you
Now, let's take a look at Taiwan Semi's key statistics:
10 Best Semiconductor Stocks To Invest In 2015: Intermolecular Inc (IMI)
Intermolecular, Inc. (Intermolecular), incorporated on June 16, 2004, is engaged in research and development and time-to-market for the semiconductor and clean-energy industries. The Company, through paid collaborative development programs (CDPs) with its customers, develops technology and intellectual property (IP) for its customers focused on advanced materials, processes, integration and device architectures. The Company provides its customers with technology through various fee arrangements and grants them rights to associated IP, primarily through royalty-bearing licenses. Through paid CDPs and its own development, the Company has established a portfolio of greater than 1,000 patents and patent applications. Its approach is broadly applicable to high-volume integrated device markets, which include the markets for semiconductors, flat glass coatings and glass-based devices, solar cells, light-emitting diodes (LEDs), flat-panel displays, advanced batteries and other energy efficiency applications.
As of December 31, 2012, the Company targets large, high-volume semiconductor and high-growth emerging clean energy markets, including DRAM, non-volatile memory (including flash memory and embedded memory), complex logic, flat glass coatings and glass-based devices, solar cells, LEDs and other energy efficiency applications. The Company�� customers include ATMI, Inc. (ATMI), Elpida Memory, Inc. (Elpida), First Solar. Inc. (First), GLOBALFOUNDRIES Singapore Pte. Ltd (GLOBALFOUNDRIES), Guardian Industries Corp. (Guardian), SanDisk Corporation (SanDisk), Taiwan Semiconductor Manufacturing Company (TSMC) and Toshiba Corporation (Toshiba). For the year ended December 31, 2012, the Company has received the majority of its revenue from customers in DRAM, flash memory, complex logic and energy-efficient applications in flat glass. The elements in HPC platform include Tempus HPC processing, automated characterization, and informatics and analysis software. Tempus HPC processing are used to process ! different experiments consisting of combinations of materials, processing parameters, sequencing and device structures. Automated characterization systems are used to characterize the substrates processed by its Tempus HPC processing tools. Informatics and analysis software are used to automate experiment generation, characterization, data analysis and reporting.
The Company�� HPC platform consists of its Tempus HPC processing tools, automated characterization and informatics and analysis software. The Company�� platform is purpose-built for Research and Development (R and D) using combinatorial process systems. Combinatorial processing is a methodology for discovery and development that employs parallel and other high-throughput experimentation, which allows R and D experimentation to be performed at speeds up to 100 times faster than traditional methods. The Company�� processing tools allows performing up to 192 experiments on a single substrate.
Advisors' Opinion:- [By Lisa Levin]
Intermolecular (NASDAQ: IMI) shares touched a new 52-week low of $4.84. Intermolecular shares have dropped 45.09% over the past 52 weeks, while the S&P 500 index has gained 26.39% in the same period.
10 Best Semiconductor Stocks To Invest In 2015: Advanced Semiconductor Engineering Inc (ASX)
Advanced Semiconductor Engineering, Inc. is principally engaged in the manufacture, assembly, processing, testing and distribution of integrated circuits (ICs). The Company provides semiconductor packaging and testing services, including plastic leaded chip carriers (PLCCs), quad flat packages (QFPs) and flip chip packaging technology, among others, which are applied in the manufacture of household electrical appliances, communication devices, automobile components, personal computers, set top boxes, servers, memory integrated circuits (ICs), mobile phones, digital cameras, game consoles, projectors, high definition (HD) televisions, wireless communication network products and power management ICs, among others. The Company operates its businesses primarily in Taiwan, Europe and the Americas. In August 2010, the Company acquired a 100% interest in EEMS Test Singapore.
The Company is focused on packaging and testing logic semiconductors. The Company offers its customers turnkey services, which consist of packaging, testing and direct shipment of semiconductors to end users designated by its customers. The Company�� global base of over 200 customers includes semiconductor companies across a range of end use applications, including Altera Corporation, ATI Technologies, Inc., Broadcom Corporation, Cambridge Silicon Radio Limited and Microsoft Corporation. During the year ended December 31, 2008, the Company�� packaging revenues accounted for 77.7% of its net revenues and its testing revenues accounted for 20.1% of its net revenues.
Packaging Services
The Company offers a range of package types to meet the requirements of its customers, with a focus on packaging solutions. Within its portfolio of package types, the Company focuses on the packaging of semiconductors. These include advanced leadframe-based package types, such as quad flat package, thin quad flat package, bump chip carrier and quad flat no-lead package, and package types based on substrates, such a! s flip-chip ball grid array (BGA) and other BGA types, as well as other packages, such as wafer-bumping products. Leadframe-based packages are packaged by connecting the die, using wire bonders, to the leadframe with gold wire. The Company�� leadframe-based packages include quad flat package (QFP)/ thin quad flat package (TQFP), quad flat no-lead package (QFN)/microchip carrier (MCC), advanced quad flat no-lead package (AQFN), bump chip carrier (BCC), small outline plastic package (SOP)/thin small outline plastic package (TSOP), small outline plastic j-bend package (SOJ), plastic leaded chip carrier (PLCC) and plastic dual in-line package (PDIP). Substrate-based packages employ the BGA design, which utilizes a substrate rather than a leadframe. It also assembles system-in-a-package products, which involve the integration of more than one chip into the same package. The Company�� substrate-based packages include Plastic BGA, Cavity Down BGA, Stacked-Die BGA, Flip-Chip BGA and land grid array (LGA).
The Company�� wafer-level packaging products include wafer level chip scale package (aCSP) and advanced wafer level package (aWLP). The Company offers module assembly services, which combine one or more packaged semiconductors with other components in an integrated module to enable functionality, typically using surface mount technology (SMT) machines and other machinery and equipment for system-level assembly. End use applications for modules include cellular phones, personal digital assistant (PDAs), wireless local area network (LAN) applications, bluetooth applications, camera modules, automotive applications and toys.
The Company provides module assembly services primarily at its facilities in Korea for radio frequency and power amplifier modules used in wireless communications and automotive applications. Interconnect materials connect the input/output on the semiconductor dies to the printed circuit board. Interconnect materials include substrate, which is a multi-layer m! iniature ! printed circuit board. The Company produces substrates for use in its packaging operations.
Testing Services
The Company provides a range of semiconductor testing services, including front-end engineering testing, wafer probing, final testing of logic/mixed-signal/radio frequency (RF) and memory semiconductors and other test-related services. The Company provides front-end engineering testing services, including customized software development, electrical design validation, and reliability and failure analysis. The Company provides final testing services for a variety of memory products, such as static random access memory (SRAM), dynamic random access memory (DRAM), single-bit erasable programmable read-only memory semiconductors and flash memory semiconductors.
The Company provides a range of additional test-related services, including burn-in testing, module sip testing, dry pack, tape and reel, and electric interface board and mechanical test tool design. The Company offers drop shipment services for shipment of semiconductors directly to end users designated by its customers.
Advisors' Opinion:- [By Seth Jayson]
Advanced Semiconductor Engineering (NYSE: ASX ) is expected to report Q2 earnings around July 7. Here's what Wall Street wants to see:
- [By Jeff Reeves]
Advanced Semiconductor Engineering�(ASX) builds and distributes integrated circuits and other electronics. It�� not as sexy as some mobile chipmakers, but thankfully it doesn�� have to be — ASX is simply capitalizing on the general demand for microchips in everything from cars to computers to TVs.
- [By David Dittman]
Crown Resorts is a buy all the way up to USD16.50 on the Australian Securities Exchange (ASX) using the symbol CWN and on the US over-the-counter (OTC) market using the symbol CWLDF.
- [By Jeff Reeves]
Next Page
Best Stocks to Buy for Around $5: Advanced Semiconductor Engineering (ASX)Advanced Semiconductor Engineering�(ASX) builds and distributes integrated circuits and other electronics. While that�� not as sexy as other chipmakers that play to mobile, it�� still a good business, considering the general demand for microchips in everything from cars to computers to TVs.
Top Dividend Stocks To Invest In 2015: Taiwan Semiconductor Manufacturing Co Ltd (TSM)
Taiwan Semiconductor Manufacturing Co., Ltd. is a Taiwan-based company principally engaged in the research, development, manufacture and distribution of integrated circuit (IC) related products. The Company operates its businesses through wafer manufacture, mask production, wafer testing and packaging components. The Company also involves in the provision of production management, customer services and design services. Its products and services are applied in the manufacture of personal computers and peripheral products, information related products, wire and wireless communication systems, automobile and industrial equipment, as well as consumer electronic products, such as digital disk players, digital televisions (TVs), game consoles, digital cameras, among others. Its customers include Altera, AMD, Broadcom, Marvell, NVIDIA, Qualcomm, Analog Devices, Freescale, NXP and Texas Instruments, among others. In July 2010, Taiwan Semiconductor Manufacturing Co. acquired mechanical and engineering equipment from ASML HONG KONG LTD. In September 2010, the Company acquired a set of equipments from ASML HONG KONG LTD. In December 2010, the Company acquired a set of equipment from TOKYO ELECTRON LTD., KLA-TENCOR CORP. and NOVELLUS SYSTEMS INTERNATIONAL,B.V. In January 2011, the Company announced that it had acquired a set of equipment from KLA-TENCOR CORP., a set of equipment and facility, and another set of equipment from VARIAN SEMI. EQUIP. ASSOCIATES GmbH. In March 2011, the Company acquired a set of equipments from Rudolph Technologies, Inc.In March 2011, the Company acquired a set of equipments from Rudolph Technologies, Inc. In May 2011, it acquired a set of equipments form APPLIED MATERIALS SOUTH EAST ASIA PACIFIC LTD., Hamatech APE Gmbh and CO. KG, TOKYO ELECTRON LTD., DAINIPPON SCREEN MFG. CO., LTD., and VARIAN SEMI. EQUIP. ASSOCIATES GMBH.
TSMC's customers include semiconductor companies, ranging from fabless semiconductor and systems companies, such as Advanced Micro Devices, In! c., Altera Corporation, Broadcom Corporation, Marvell Semiconductor Inc., MediaTek Inc., nVidia Corporation and Qualcomm Incorporated, to integrated device manufacturers, such as LSI Corporation, STMicroelectronics and Texas Instruments Inc. Fabless semiconductor and system companies accounted for approximately 80%, and integrated device manufacturers accounted for approximately 20% of its net sales as of December 31, 2009.
The Company manufactures semiconductors using CMOS and BiCMOS processes. The BiCMOS process combines the speed of the bipolar circuitry and the power consumption and density of the CMOS circuitry. It uses the CMOS process to manufacture logic semiconductors, memory semiconductors, including static random access memory (SRAM), flash memory, mixed-signal/ radio frequency (RF) semiconductors, which combine analog and digital circuitry in a single semiconductor, micro-electro-mechanical-system (MEMS), which combines micrometer featured mechanical parts, analog and digital circuitry in a single semiconductor, and embedded memory semiconductors, which combine logic and memory in a single semiconductor. The BiCMOS process is used to make high-end mixed-signal and other types of semiconductors.
Advisors' Opinion:- [By Stephen Simpson, CFA]
While Mattson has a longer history in this market, the battle between Mattson and Ultratech (and flash annealing versus LSA) will be an interesting one to watch. The engineering papers I have read seem to give the edge to LSA for its better minimization of pattern effects (differences in energy absorption that cause nonuniformities in the chip), but Mattson argues that its new Millios tool delivers real advantages at 20nm and below in terms of process temperature flexibility, speed, and performance. To that end, both Samsung and TSMC (TSM) have been evaluating these tools in pilot production lines.
- [By Anders Bylund]
Rumor has it that the two frenemies will put some distance between them. Taiwanese tech publication DigiTimes has long suggested that Apple's core chips might find a new home in massive chip foundry Taiwan Semiconductor Manufacturing (NYSE: TSM ) -- and now the publications claims that it's a done deal.
10 Best Semiconductor Stocks To Invest In 2015: NVIDIA Corporation(NVDA)
NVIDIA Corporation provides visual computing, high performance computing, and mobile computing solutions that generate interactive graphics on various devices ranging from tablets and smart phones to notebooks and workstations. It operates in three segments: Graphic Processing Unit (GPU), Professional Solutions Business (PSB), and Consumer Products Business (CPB). The GPU segment offers GeForce discrete and chipset products, which support desktop and notebook personal computers plus memory products. The PSB segment provides its Quadro professional workstation products and other professional graphics products, including its NVIDIA Tesla high-performance computing products used in the manufacturing, entertainment, medical, science, and aerospace industries. The CPB segment offers Tegra mobile products, which support tablets, smartphones, personal media players, Internet television, automotive navigation, and other similar devices. This segment also licenses video game consol es and other digital consumer electronics devices. The company sells its products to original equipment manufacturers, original design manufacturers, add-in-card manufacturers, consumer electronics companies, and system builders worldwide that utilize its processors as a core component of their entertainment, business, and professional solutions. NVIDIA Corporation was founded in 1993 and is headquartered in Santa Clara, California.
Advisors' Opinion:- [By Mark Hibben]
Nvidia (NVDA): The growth of Intel architecture SOCs having built in graphics simply means that the market for separate graphics cards and discrete GPUs gets smaller and smaller. A presentation by John P. Webb of Intel at the 2012 Intel Developer Forum spelled it out very clearly: Ivy Bridge had eliminated the market for entry-level graphics cards, and Haswell was being positioned to "move up the food chain" to mid-grade graphics processors.
- [By Steve Symington]
In a press release Thursday, graphics chip specialist NVIDIA (NASDAQ: NVDA ) announced it will return an additional $1 billion to shareholders this fiscal year in the form of dividends and share buybacks.
10 Best Semiconductor Stocks To Invest In 2015: GigOptix Inc (GIG)
GigOptix, Inc. (GigOptix), incorporated on March 2008, is a supplier of semiconductor and electro-optical component products that enables high-speed end to end data streaming over optical fiber and wireless telecommunications and data-communications networks globally. The Company's products convert signals between electrical and optical formats for transmitting and receiving data over fiber optic networks and between electrical and high speed radio frequencies to enable the transmission and receipt of data over wireless networks. The Company is creating both optical telecommunications and data-communications applications for fast growing markets in 10 giga bytes per second (Gbps), 40Gbps and 100Gbps drivers, receiver integrated circuits (IC), electro-optic modulator components and multi-chip-modules (MCM), as well as E-band wireless data-communications applications for high speed mobile backhaul and other high capacity wireless data transport applications. During the year ended December 31, 2011, the Company shipped over 150 products to over 200 customers.
The Company offers a portfolio of 10Gbps and 40Gbps electro-optical products and is developing market for 100Gbps products. The Company provides bundled solutions that consist of a few of its products, such as modulator and driver. The Company also offers a comprehensive portfolio of Monolithic Microwave Integrated Circuit (MMIC) and application-specific integrated circuit (ASIC) products to support E-band wireless communication and defense markets. The Company has also developed 10Gbps vertical cavity surface-emitting laser (VCSEL) drivers and receivers for aerospace as well as outdoor, non-temperature controlled environments that enables higher capacity in its customers' next generation flight and data center systems.
The Company has a portfolio of products for telecommunications , data-communications, defenses and industrial applications designed for optical speeds from 3Gbps to over 100Gbps and for wireless frequencies! from zero giga hertz (GHz) to 86GHz. The Company's products support a range of data rates, protocols, transmission distances and industry standards.
The Company's portfolio consists of the product ranges, such as laser and modulator drivers for 10Gbps, 40Gbps and 100Gbps applications; receiver amplifiers or Trans-impedance Amplifiers (TIAs) for 10Gbps, 40Gbps and 100Gbps applications; VCSEL driver and receiver chipsets for 14 and 12 channel parallel optics applications from 3Gbps to 10Gbps; Electro-optic modulators based on the Company's TFPS technology suitable for various 40Gbps and 100Gbps modulation schemes, such as differential phase shift keying (DPSK), differential quadrature phase shift keying (DQPSK), RZ-DQPSK and DP-QPSK; wideband monolithic microwave integrated circuit (MMIC) amplifiers with flat gain response; high frequency MMIC Power Amplifiers with high gain and output power; high frequency passive attenuators and filters in small form factors, and standard cell, and structured ASIC and hybrid ASIC designs and manufacturing service for multiple markets offering information technology acquisition review (ITAR) compliance for defense applications. The Company designs and market products that amplifies electrical signals during both the transmission (amplifiers and optical drivers) and reception (TIAs) of optical signals as well as modulate optical signals in the transmission of data.
The Company's optical drivers amplify the input digital data stream that is used to modulate laser light either by direct modulation of the laser or by use of an external modulator that acts as a precise shutter to switch on and off light to create the optical data stream. The Company supplies an optimized component for each type of laser, modulator and photo-diode depending upon the speed, reach and required cost. The Company's microwave and millimeter wave amplifiers amplify small signal radio signals into more signals that can be transmitted over long distances to establish high t! hroughput! data connections or enable radar based applications. The Company's ASIC solutions are used in a number of applications such as defense and test and measurement applications to enable the high speed processing of complex signals.
The Company's product portfolio is designed to cover the range of solutions needed in these different modules. The Company's product portfolio consists of five product lines: GX Series, which includes serial drivers and TIA ICs devices for telecom and data-com markets; HX Series, which includes multi-channel driver and TIA ICs for short reach data-com and optical interconnect applications; LX Series, which includes TFPS modulators for high speed telecom and defense applications; EX Series, which includes amplifiers, filters and attenuators for microwave applications in defense and instrumentation, and CX Series, which includes family of ASIC solutions for custom integrated circuit design.
GX Series
The GigOptix GX Series of products services both the telecom and data-com markets with a broad portfolio of drivers and transimpedence amplifiers that address 10Gbps, 40Gbps and 100Gbps speeds over distances that range from 100 meters to 10,000 kilometers. The GX Series devices are used in FiberChannel, Ethernet, synchronous optical networking (SONET)/ synchronous digital hierarchy (SDH) components and those based upon the optical internetworking forum (OIF) standards.
HX Series
The GigOptix HX Series of products service the high performance computing (HPC), data-com and consumer markets with a portfolio of parallel VCSEL drivers and TIAs that address 3Gbps, 5Gbps,10Gbps, 14Gbps, 16Gbps and 25Gbps channel speeds over 100-300 meters distances in four and 12 channel configurations. The HX Series devices are used in HPC formats, Infiniband, Ethernet and optical high definition multimedia interface (HDMI) components.
LX Series
The GigOptix LX Series of products service the 40Gbps and above telecom! market f! or Mach-Zehnder modulators. The LX Series devices are based on the Company's TFPS EO material technology.
EX Series
The GigOptix EX Series of products leverages the high performance products acquired in the Endwave acquisition. In addition, it also includes the die and design techniques developed for the GX Series telecom and data-com drivers for related defense and instrumentation applications.
CX Series
The GigOptix CX Series of products offers a portfolio of distinct paths to digital and analog mixed signal ASICs with the capability of supporting designs of up to 10M gates in technologies ranging from 0.6 through 65nm. The CX Series uses the Company's technology in Structured and Hybrid ASICs to enable a generic ASIC solution that can be customized for a customer using only a few metal mask layers. The CX Series also offers ASIC services, including Analog and Mixed Signal IP into designs and taking customers designs from RTL or gate-level net list definitions to volume production with third party foundries.
The Company competes with TriQuint, Rohm, InPhi, Centellax, Semtech, Vitesse, M/A-Com, Avago, Emcore, Tyco Electronics, IPtronics. Avago, Emcore, Tyco Electronics, JDSU, Oclaro, Sumitomo, Fujitsu, Emcore, Oclaro, Hittite, Sumitomo, Hittite, RFMD, Northrop Grumman, On -Semiconductor, eSilicon, Open Silicon, Faraday, Toshiba and eASIC.
Advisors' Opinion:- [By Bryan Murphy]
It's admittedly overbought and due for a slight dip thanks to today's surge. But when you take a step back and look at GigOptix Inc. (NYSEMKT:GIG), there's actually a lot to be excited about if you've been mulling a trading in GIG. The trick will be getting the timing right.
10 Best Semiconductor Stocks To Invest In 2015: Aeroflex Holding Corp (ARX)
Aeroflex Holding Corp. (Aeroflex Holding) is a provider of radio frequency (RF) and microwave integrated circuits, components and systems used in the design, development and maintenance of wireless communication systems. The Company�� solutions include microelectronic components and test and measurement equipment used by companies in the space, avionics and defense; commercial wireless communications, and medical and other markets. Its products include a range of RF, microwave and millimeter wave microelectronic components, integrated circuits (ICs), and analog and mixed-signal devices. It also manufactures a range of RF and microwave wireless radio and avionics test equipment and solutions particularly for the wireless, avionics and radio test markets. The Company operates in two segments: Aeroflex Microelectronics Solutions (AMS) and Aeroflex Test Solutions (ATS). In August 2010, it acquired Advanced Control Components. In September 2013, the Company announced the sale of its Aeroflex Test Equipment Services (ATES) business to Trescal Limited. In February 2014, Aeroflex Holding Corp announced the acquisition of Shenick Network Systems.
Aeroflex Microelectronic Solutions
AMS offers a range of microelectronics products and is a provider of specialty products for the space, avionics, defense, commercial wireless communications, medical and other markets. RadHard products are specifically designed to tolerate high radiation level environments, which otherwise can degrade electronic components. The Company principally operates on a fabless semiconductor manufacturing model, outsourcing virtually all front-end semiconductor fabrication activities to commercial foundries. AMS offers a range of complementary products that provide connectivity and computing functionality for applications. Its product portfolio includes RF, microwave and millimeter wave products, including discrete components, ICs, monolithic microwave ICs and multi-chip modules.
AMS designs and manu! factures application specific, analog and mixed-signal devices for use in medical, industrial and intelligent sensors. The Company�� AMS products are used in over 100 space, avionics and defense platforms, including the Wideband Global Satellite Communications satellites, the Geostationary Operational Environmental satellites, the Advanced Extremely High Frequency satellites, the Boeing 777 airliner's databus, the F-16's modular mission computer, the B-1 flight controls upgrade and the Terminal High Altitude Area Defense program. Its AMS products are also used in wireless communications platforms, including WCDMA and LTE cellular base station systems, as well as point-to-point broadband radio applications. In the medical area, our products are used by two of the top four manufacturers of CT scan equipment.
AMS provides HiRel standard and custom integrated circuits and circuit card assembly for the aerospace, altitude avionics, medical, x-ray cargo scanners, critical transportation systems, nuclear power controls, global positioning systems (GPS) receivers, networking and telecommunication markets. AMS' HiRel products include transceivers, analog multiplexers, clock management generators, MSI logic products, battery electronics units, voltage regulators, high-speed power controllers, MIL-STD 1553 bus controllers, remote terminals, bus monitors, microcontrollers and microprocessors, RadHard Pulse Width Modulation Controllers, RadHard Resolver-to-Digital and memory modules. HiRel Microelectronics/ Semiconductors have a typical life cycle of 10-20 years.
AMS provides a set of standard and application specific RF/microwave diodes and semiconductor devices. Microwave semiconductor products offered include diodes, amplifiers, resistors, inductors, capacitors, switches, and integrated devices. RF and Microwave active components and subsystems offered include PIN diode-based microwave control components, variable attenuators, phase shifters, limiters, time delay units and Multi-Funct! ion Micro! wave assemblies. AMS offers resistor products, which include a variety of low and high reliability power surface mounted passive devices for the wireless infrastructure and defense markets with applications in isolators, circulators, single and multi-carrier power amplifiers and circuits. Passive components offered include attenuators, terminations, adapters, DC blocks, and other components for commercial, military and laboratory applications. Other products include power amplifiers, up and down converters, mixers, filters and micro-receivers operating to over 40 giga hertz (GHz). RF and Microwave components have a typical life cycle of 5-15 years. The Company�� motion control products provide complete and integrated motion control solutions for space (both military and commercial), military, avionics, and industrial customers. Its product line offerings include actuators and mechanisms, electronic controllers, slip rings and twist capsules, DC motors and Gimbal Systems. Motion control products have a typical life cycle of 10-20 years.
Aeroflex Test Solutions
ATS is a provider of a line of specialized test and measurement hardware and software products, primarily for the space, avionics, defense, commercial wireless communications and other markets. ATS products and their applications include wireless test equipment, which is used to develop and test handsets and base stations; military radio and PMR test equipment, which is used by radio manufacturers and military, police, fire, and emergency response units to test handheld radios; avionics test equipment, which is used in the design, manufacture and maintenance of electronics systems for aircraft; synthetic test equipment, which is used to test satellites and transmit / receive modules prior to launch and deployment, and general purpose test equipment, including spectrum analyzers and signal generators.
Wireless Test Equipment is used by wireless service providers and equipment manufacturers to test wireless ! handsets ! and base stations. The Company offers a range of cellular tests across a range of wireless standards and communication frequencies, including 2G and 3G, with particular capability in EDGE protocols, and the new 4G LTE/LTE(A) protocols. Products include a range of system, protocol, physical layer and parametric test solutions, such as the TM500 test mobile, RF synthesizers, digitizers and combiners, and application software. In addition, ATS provides PXI-based products which are modular scalable solutions for the handset manufacturing environment. Product applications include research and development, conformance, manufacturing/production, installation and commissioning, field service, and network optimization.
ATS Radio Test Equipment is used by radio manufacturers and military, police, fire and emergency response units to test handheld radio units. ATS provides TErrestrial Trunked Radio (TETRA), and Project 25 (P25), radio test equipment, addressing both mobile and repeater test applications. TETRA is a global standard for private mobile radio (PMR), systems used by emergency services, public transport and utilities. P25 is a standard for digital radio communications for use by federal, state, private, and local public safety agencies in North America. Its military communications testing systems are primarily used by the United States military to test complex voice and data frequency hopping radios and accessories. Military radio and PMR test equipment has a typical life cycle of 5-20 years.
Avionics test equipment is used in the design, manufacture, test and maintenance of commercial, civil and military airborne electronic systems, or avionics. ATS equipment provides the stimulus and signals necessary for certification, verification, fault finding and diagnosis of airborne systems on the ground. For civil and commercial aviation, it has test solutions for various transponder modes, communications frequencies, emergency locator transmitters, weather radars and GPS systems. F! or milita! ry aviation, it has test solutions for microwave landing systems, tactical air navigation, enhanced traffic alert and collision avoidance systems, various identification friend or foe, or IFF, transponder/interrogator modes and IFF monopulse antenna simulation. ATS also provides customized avionics test solutions to support manual and automatic test equipment for manufacturing, repair and ground support operations. Avionics test equipment has a typical life cycle of 8-15 years.
Synthetic test systems test several attributes through one box and can take multiple complex measurements simultaneously. ATS provides synthetic test environment that allows digital, analog, RF/microwave and power test of circuits, modules, subsystems and complete systems for commercial, military, and aerospace customers. ATS' STI 1000C+ and TRM 1000C products offer synthetic microwave test systems optimized for testing Transmit/Receive modules and satellite payloads in a factory setting. Its SMART^E and SMART^E 5300 products offer a modular approach for implementing multi-function configurable and reconfigurable test systems. Synthetic test solutions products have a typical life cycle of 10-15 years.
ATS offers a variety of general purpose test solutions including microwave test solutions, counters and power meters. ATS microwave test solutions cover frequency ranges from 1 megahertz (MHz) to 46 gigahertz (GHz), with various tracking, offset, continuous wave, modulated source, fault location, and group delay configuration options provided. ATS power meters are designed for field use, automated test equipment requirements and standard bench applications. General purpose test solutions have a typical life cycle of 4-7 years.
The Company Competes with Agilent Technologies, Honeywell, BAE Systems, Hittite Microwave Corporation, ILC / Data Devices Corporation, Microsemi, Anaren, Anite, Anritsu, Rohde & Schwarz, Spirent and National Instruments.
Advisors' Opinion:- [By Rich Smith]
The Department of Defense issued some 22 separate contract awards Thursday, totaling just under $1 billion in combined value. Not all of them went to publicly traded defense contractors, of course, but enough of them did to be worth mentioning. Here are a few of the lucky winners:
10 Best Semiconductor Stocks To Invest In 2015: Sunedison Inc (SUNE)
SunEdison Inc, formerly MEMC Electronic Materials, Inc., incorporated on October 1, 1984, is engaged in the development, manufacture and sale of silicon wafers. The Company is a developer and seller of photovoltaic energy solutions. Through Solar Materials and Solar Energy (SunEdison), it is a developer of solar energy projects. The Company operates in two segments: semiconductor materials and solar energy. The Company�� Solar Energy segment includes the operations of its old Solar Materials segment, as well as its SunEdison business. In the Semiconductor Materials, the Company offers wafers with a variety of features. The Company�� wafers vary in size, surface features, composition, purity levels, crystal properties and electrical properties.
Semiconductor Materials
The Company�� monocrystalline wafers for use in semiconductor applications range in size from 100 millimeter to 300 millimeter and are round in shape for semiconductor customers because of the nature of their processing equipment. Its wafers are used as the starting material for the manufacture of various types of semiconductor devices, including microprocessor, memory, logic and power devices. In turn, these semiconductor devices are used in computers, cellular phones and other mobile electronic devices, automobiles and other consumer and industrial products. Its monocrystalline wafers for semiconductor applications include four general categories of wafers: prime, epitaxial, test/monitor and silicon-on-insulator (SOI) wafers.
The Company�� prime wafer is a polished, pure wafer with an ultraflat and ultraclean surface. The Company�� epitaxial (epi), wafers consist of a thin silicon layer grown on the polished surface of the wafer. Typically, the epitaxial layer has different electrical properties from the underlying wafer. This provides customers with isolation between circuit elements than a polished wafer. Its AEGIS product is designed for certain specialized applications requiring high resis! tivity epitaxial wafers and its MDZ product feature. The AEGIS wafer includes a thin epitaxial layer grown on a standard starting wafer. The AEGIS wafer�� thin epitaxial layer eliminates harmful defects on the surface of the wafer, thereby allowing device manufacturers to increase yields. The Company supplies test/monitor wafers to its customers for use in testing semiconductor fabrication lines and processes. An SOI wafer is a different starting material for the chip making process.
Solar Energy
The Company�� Solar Energy segment provides solar energy services that integrate the design, installation, financing, monitoring, operations and maintenance portions of the downstream solar market to provide a solar energy service to its customers. As of December 31, 2012, SunEdison interconnected over 675 solar power systems representing 989 megawatt of solar energy generating capacity. As of December 31, 2012, SunEdison had 73 megawatt of projects under construction and 2.6 gigawatts in pipeline. In support of its downstream solar business, its Solar Energy segment manufactures polysilicon, silicon wafers and solar modules. Additionally, its Solar Energy segment will sell solar modules to third parties in the event the opportunity aligns with itsinternal needs. It provides its downstream customers with a way to purchase renewable energy by delivering solar power under long-term power purchase arrangements with customers or feed-in tariff arrangements with government entities and utilities. Its SunEdison business is dependent upon government subsidies, including United States federal incentive tax credits, state-sponsored energy credits and foreign feed-in tariffs. The Company�� solar wafers are used as the starting material for crystalline solar cells.
The Company competes with Shin-Etsu Handotai, SUMCO, Siltronic and LG Siltron, SunPower Corporation, First Solar, Inc., Enerparc, Sharp Corporation (Recurrent Energy), Phoenix Solar, BELECTRIC, JUWI Solar Gmbh, and S! olar City! .
Advisors' Opinion:- [By Aaron Levitt]
Utility NextEra Energy (NEE) is the nation�� largest solar and wind operator and just the latest firm to announce its intention to create a YieldCo. Moody�� estimates that about 30 utilities across the globe have the ability to create a YieldCo today based on current power plant holdings. Aside from the utility space, the various solar panel producers that also own/build grid-scale operations have also expressed their intentions about starting YieldCos. These include SunPower (SPWR) and SunEdison (SUNE).
- [By James Brumley]
What’s going to spark such a run-up from SOL stock at some point in 2014? Aaron Levitt offered details in his commentary on ReneSola, but the short version is that the panel maker has developed a strong name for itself as a supplier for small, independent power producers that are more cost-conscious than bigger players.
Sunedison (SUNE)While Sunedison (SUNE) is a name that occasionally surfaces during discussions of the market’s top solar stocks, it’s not always part of the debate.
- [By Travis Hoium]
SunEdison, a subsidiary of MEMC Electronic Materials (NYSE: SUNE ) , announced an agreement with Fox Energy, a subsidiary of Foxconn Technology, to manufacture 350 MW of solar modules. This is part of a virtual integration plan where SunEdison will have agreements with outside suppliers to provide product, allowing the company to focus on project installations.
10 Best Semiconductor Stocks To Invest In 2015: Universal Display Corp (OLED)
Universal Display Corporation, incorporated on April, 24, 1985, is engaged in the research, development and commercialization of organic light emitting diode (OLED) technologies and materials for use in flat panel display, solid state lighting and other product applications. The Company�� primary business strategy is to develop and license its OLED technologies to product manufacturers for use in these applications. Its primary business is to develop and license its OLED technologies to manufacturers of products for display applications, such as cell phones, portable media devices, tablets, laptop computers and televisions, and specialty and general lighting products; and develop new OLED materials and sell the materials to those product manufacturers. The Company sells its OLED materials to customers for evaluation and use in commercial OLED products. As of December 31, 2012, the Company owns, exclusively license or have the sole right to sublicense more than 3,000 patents issued and pending worldwide. On July 23, 2012, the Company entered into a Patent Sale Agreement (the Agreement) with FUJIFILM. Under the Agreement, FUJIFILM sold more than 1,200 OLED related patents and patent applications.
Phosphorescent Organic Light Emitting Diode Technologies
Phosphorescent OLEDs utilize specialized materials and device structures that allow OLEDs to emit light through a process known as phosphorescence. Traditional fluorescent OLEDs emit light through an inherently less efficient process. Theory and experiment show that phosphorescent OLEDs exhibit device efficiencies up to four times higher than those exhibited by fluorescent OLEDs. Phosphorescence substantially reduces the power requirements of an OLED and is potentially useful in displays for hand-held devices, such as Smartphone��, where battery power is often a limiting factor. Phosphorescence is also important for area displays such as televisions, where higher device efficiency and lower heat generation may enable longer ! product lifetimes and increased energy efficiency.
Additional Proprietary Organic Light Emitting Diode Technologies
Additional OLED Technologies include FOLED Flexible OLEDs, Thin-Film Encapsulation, UniversalP2OLED Printable Phosphorescent OLEDs, OVJP Organic Vapor Jet Printing, OVPD Organic Vapor Phase Deposition and TOLED Transparent OLEDs. The Company is working on a number of technologies required for the fabrication of OLEDs on flexible substrates. As of December 31, 2012, it was conducting research and development on FOLED technologies internally, under several of its United States government programs and in connection with the government-sponsored Flexible Display Center at Arizona State University (ASU). The Company announced its, patented encapsulation technology for the packaging of flexible OLEDs and other thin-film devices, as well as for use as a barrier film for plastic substrates. Its approach for manufacturing a small molecule OLED, including a PHOLED, is based on a vacuum thermal evaporation (VTE) process.
The Company has partnered with Aixtron AG, which is a manufacturer of metal-organic chemical vapor deposition equipment, to develop and qualify equipment for the fabrication of OLED displays utilizing the OVPD process. It has developed a technology for the fabrication of OLEDs that have transparent cathodes. TOLEDs use a transparent cathode and either a transparent, reflective or opaque metal anode.
Organic Light Emitting Diode Materials Supply Business
The Company supplies its proprietary UniversalPHOLED materials to display manufacturers and others. The Company qualifies its materials in OLED devices before shipment in order to ensure that they meet required specifications. During 2012, the Company continued supplying its proprietary UniversalPHOLED materials to SDC for use in its commercial AMOLED display products and for its development efforts. During 2012, the Company also supplied its UniversalPHOLED materials to! LG Displ! ay for use in its commercial AMOLED display products, to Tohoku Pioneer for use in its commercial PMOLED display products, and Konica Minolta for its manufacture of commercial OLED lighting products. During 2012, the Company also supplied its proprietary OLED materials to these and various other product manufacturers for evaluation and for purposes of development, manufacturing qualification and product testing.
The Company competes with Eastman Kodak Company (Kodak), Cambridge Display Technology, Ltd. (CDT), Sumitomo Chemical Company (Sumitomo), Idemitsu Kosan Co., Ltd. (Idemitsu Kosan), Merck KGaA and BASF Corporation.
Advisors' Opinion:- [By Selena Maranjian]
Corning is also tied to the TV industry, where large-screen models require far more of its glass than relatively tiny smartphone screens. The company does have competition, though, such as from Universal Display (NASDAQ: OLED ) , with its impressive OLED technology that threatens LCD displays' share. Both companies stand to benefit from Samsung's upcoming S4 phone, though, with its bigger and better screens.
- [By Steve Symington]
If playing an integral role in millions of smartphone displays and (soon)�big-screen TVs weren't enough, the folks at Universal Display (NASDAQ: OLED ) have fixed their eyes on aircraft interiors around the world.
10 Best Semiconductor Stocks To Invest In 2015: AT & S Austria Technologie & Systemtechnik AG (AUS)
AT & S Austria Technologie & Systemtechnik AG (AT&S) is an Austria-based company that is principally engaged in the production of printed circuit boards. The Company is divided into three core business units: Mobile Devices; Automotive, and Industrial. The Company�� product assortment ranges from single- and double-sided printed circuit boards to multilayer printed circuit boards. They are used as electromechanical linking elements, mainly in the telecommunication sector, automobile industry and medical technology applications, as well as defense and aerospace. AT&S operates production sites in Austria, India, China and Korea. It also maintains international sales offices, based in Austria, Ireland, Germany, the Czech Republic, France, Hungary and Belgium. As of March 31, 2011, the Company operated through its subsidiaries in India, Germany, Austria, China, Hong Kong, Japan, South Korea, Taiwan and the United States. Advisors' Opinion:- [By Triska Hamid]
Professors at the American University of Sharjah (AUS) are also looking at dental care with braces imbedded with a chip that monitor the movement of the fixtures and will communicate with the dentist's office if any of them are separated from the teeth.
10 Best Semiconductor Stocks To Invest In 2015: NextStage Inc (NXT)
NextStage, Inc. is a holding company. The Company is engaged in the management of its investments in shares of stocks of its subsidiaries. The Company�� subsidiaries include Mondex Philippines Inc. (MXP), Infinit-e Asia Inc. (Infinit-e Asia) and Technology Support Services, Inc. (TSSI). MXP operates a multi-application smart card system in Philippines. Infinit-e Asia is a software development company specializing on smart card and e-commerce solutions tailored to enhance the business of its clients. Infinit-e Asia develops smart card solutions for both real and online applications and on both contact and contactless platform. Infinit-e Asia�� spectrum of products and applications are classified as payments, data capture and security. TSSI is engaged in the business of business process outsourcing (BPO), applications service providers (ASP) and managed service providers (MSP). Advisors' Opinion:- [By Namitha Jagadeesh]
HSBC Holdings Plc (HSBA), Europe�� largest bank, slid 2.1 percent. International Consolidated Airlines Group SA (IAG) declined 2 percent as it canceled some of its flights following a disruption caused by one of its planes at Heathrow airport. Next Plc (NXT) retreated 2.4 percent as Morgan Stanley cut its recommendation on the shares.
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