Emerging markets have been struggling since 2011. Many have been in bear markets, with declines of as much as 35%, and with only bear market rallies since 2011, observes market timing specialist Sy Harding, editor of Street Smart Report.
Given the risk in individual countries these days, we prefer a diversified emerging-markets mutual fund or ETF, rather than choosing individual countries or individual stocks.
And given the potential over-valued condition of the US market, and its proximity to five-year highs, there may well be more potential in markets that have already experienced bear markets, and are rallying off lows.
Vanguard Emerging Markets (VWO) is a large fund, with 1.2 billion shares outstanding, and a market cap of $50 billion. It is widely diversified. Its twenty largest holdings are only 21.7% of its total holdings.
Those largest holdings include Taiwan Semiconductor, Petroloeo Brasileiro (Brazil), China Mobile, China Construction Bank, CNOOK (China Offshore Drilling), Gazprom OAO (Russia), America Movil (Mexico), Sasol Ltd. (South Africa), Hon Hai Precision (Taiwan), and Infosys (India).
10 Best Up And Coming Stocks To Watch Right Now: Advantest Corp (ATE)
Advantest Corporation, incorporated in December 1954, is a part of Advantest group. The Company operates in three segments: semiconductor and component test system segment; mechatronics system segment, focusing on peripheral devices including test handlers and device interfaces, and services, support and others segment. The semiconductor and component test system segment provides customers with test system products for the semiconductor industry and the electronic component industry. The mechatronics system segment focuses on peripheral devices to the semiconductor and component test systems. The services, support and others segment consists of comprehensive customer solutions provided in connection with the semiconductor and component test system and mechatronics system segments, support services and an equipment lease business.
Semiconductor and Component Test Systems Segment
Semiconductor and component test systems are used during the semiconductor and electronic component manufacturing process to confirm that a semiconductor functions properly. Semiconductor and component test systems consist of test systems for memory semiconductors and test systems for non memory semiconductors. Advantest�� test systems for memory semiconductors are test systems designed to test high-speed/high performance dynamic random access memory (DRAM) semiconductors used in equipment such as personal computers and servers, as well as flash memory semiconductors used in digital consumer products.
Test systems for memory semiconductors consist of a mainframe and one or more test heads. During testing, a device interface is attached to the test head. During the front-end testing process, wafers are loaded by a prober and are connected to the test system for memory semiconductors through the device interface. Electric signals between the die and the test systems for memory semiconductors are transmitted through probe pins located in the device interface and tested. After front-end te! sting is completed, the wafer is diced into separate dies and properly functioning dies are packaged. During back-end testing, test handlers are used to load these packaged devices onto the test heads, and electric signals are transmitted between the devices and the test heads via the device interface and tested. The test results are analyzed by the test systems for memory semiconductors��hardware circuits and software programs. Customized software programs for each semiconductor are required to analyze the semiconductor tests and test data.
Advantest�� main product lines of test systems for memory semiconductors are the T5500 series, the T5300 series and the T5700 series. The T5593 is a test system targeted at the market for high speed memory semiconductors, such as DDR2- Synchronous Dynamic Random Access Memory (SDRAM) and Synchronous Graphics Random Access Memory (SGRAM). The T5383 is a multi-functional test system for memory semiconductors that reduces testing costs for semiconductor manufacturers. Advantest�� main line of test systems for non memory semiconductors relates to test systems for SoC semiconductors, test systems for liquid crystal display (LCD) driver integrated circuits and test systems for semiconductors used in car electronics. The T6577 test systems for SoC semiconductors in the T6500 series were primarily developed to test micro controller unit (MCU) and SoC semiconductors that control digital consumer products at the production lines. The T6300 series are test systems for LCD driver integrated circuits used with high-definition LCD displays. The T7721, T7722 and T7723 are test systems for non memory semiconductors for mixed signal integrated circuits. The T8571A is a test system for non memory semiconductors that is primarily used to evaluate and analyze CCDs which are image sensors.
Mechatronics System Segment
The Main products in the Mechatronics System Segment are test handlers which handle semiconductor devices and automate the te! sting, an! d device interfaces which are the interfaces with devices being tested. Test handlers are used with semiconductor and component test systems to handle, condition temperature, contact and sort semiconductors and other electronic components during the back-end testing of the semiconductor manufacturing process. Advantest�� test handlers are sold primarily in conjunction with the sale of its semiconductor and component test systems. The M6242 test handler for test systems for memory semiconductors, including DDR-3SDRAM, can handle up to 512 semiconductors at a time. Advantest�� test handlers for non memory semiconductors, including SoC semiconductors, are the M4841, the M4741A and the M4742A, among others.
Advantest develops and manufactures device interfaces for semiconductor and component test systems and supplies device interfaces, such as high performance and high density connectors, socket boards and sockets. For test systems for memory semiconductors, Advantest provides motherboards capable of handling a maximum of 512 semiconductors at a time. For test systems for non memory semiconductors, Advantest provides motherboards that are compatible with a maximum of 3,072 signals. Advantest also provides motherboards designed for use in front-end testing. Advantest provides custom manufacturing of socket boards and performance boards for each device under test in accordance with customers��specifications.
Advantest provides sockets for test systems for memory semiconductors. Advantest provides low-inductance (0.4nH) sockets and fine pitch (0.4mm) sockets for semiconductors that are becoming more high-speed and more compact in size. Advantest provides carrying and contacting mechanism components compatible with each device under test for test handlers for memory semiconductors and test handlers for non memory semiconductors.
Services, Support and Others Segment
In the services, support and others segment, Advantest has focused on maintenance serv! ices, suc! h as installation and repair of Advantest�� products. It also focused on lease and rental services of its products as a part of Advantest�� effort to provide customers with comprehensive solutions.
The Company competes with Teradyne, Inc., Verigy Ltd., LTX-Credence Corporation, Yokogawa Electronic Corporation, FROM30 CO., LTD., EXICON Ltd., UniTest Inc., Delta Design, Inc., Seiko Epson Corporation, Mirae Corporation, TechWing, Inc., TSE Co., Ltd. and Secron Co., Ltd.
Advisors' Opinion:- [By Dan Carroll]
Nissan's done better this year than electronics maker Advantest (NYSE: ATE ) , but this stock absolutely blew up over the past week. Advantest's shares shot higher by more than 9%, wiping out pessimism over the company's weak earnings released a few weeks ago. Advantest's net loss and operating profit both fell below its guidance, and despite this week's investor optimism, the future's murky for this company. Financial site TheStreet downgraded the stock last week, citing Advantest's falling earnings, among other issues.
Best Semiconductor Stocks To Buy For 2014: 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.
Best Semiconductor Stocks To Buy For 2014: Camtek Ltd (CAMT)
Camtek Ltd. (Camtek), incorporated in 1987, designs, develops, manufactures and markets automated solutions dedicated for enhancing production processes and yield for the semiconductor manufacturing and packaging and the printed circuit board (PCB) and integrated circuit (IC) substrate industries. Camtek also designs, develops, manufactures and markets automated optical inspection (AOI), systems and related products. The Company�� AOI systems are used to enhance both production processes and yields for manufacturers in the semiconductor manufacturing and packaging industry and PCB and IC Substrate industry. Through the acquisition of Printar's assets, it also engaged in developing, manufacturing, sale and marketing of direct digital material deposition systems and inks for the PCB industry, with two major fields of activity: Solder Mask and Legend. In addition, through the acquisition of Sela, it is also engaged in the development, manufacturing and marketing of automated scanning electron microscope (SEM) and transmission electron microscope (TEM) sample preparation equipment, primarily for the semiconductor industry.
As of December 31, 2011, the Company had sold more than 2,500 AOI systems in 34 countries worldwide. The Company's PCB customer base includes the majority of the 100 PCB manufacturers worldwide. As of December 31, 2011, it had sold over 300 Falcon systems to more than 25 semiconductor manufacturers, among them outsourced semiconductor assembly and test (OSAT), integrated device manufacturers (IDM) and wafer level packaging subcontractors, including eight out of the top 10 semiconductors companies.
Camtek�� AOI systems consist of an electro-optical assembly unit, either movable or fixed, which consists of a video camera, precision optics and illumination sources. The electro-optical unit captures the image of the inspected product; a precise, either movable or fixed table, that holds the inspected product, and an electronic hardware unit, which operates the! entire system and includes embedded components that process and analyze the captured image by using its algorithms. Its systems can also compile and communicate statistical reports of inspection findings through the customer�� factory information system. The Company offers a range of systems for automated optical inspection of semiconductor wafers, IC substrates and PCBs. These systems are used to enhance production yields and assist in controlling manufacturing processes at wafer fabrication, test and assembly houses, and PCB plants worldwide.
The Company�� Falcon systems are designed for the back end market of the semiconductor industry. The Falcon�� advanced algorithms and inspection capabilities enable its dedicated models to detect defects in the die, which, if left undetected, may cause failure. The Condor is designed to meet the current and future inspection needs of the semiconductor industry. The Condor, through algorithms and advanced hardware configuration, is designed to enhance two dimensional (2D) and three dimensional (3D) detection abilities and increased throughput. The Condor family includes models for: 3D and 2D metrology and inspection of bumped-wafer prepared for packaging in the flip-chip technology; 2D metrology and inspection of finished wafers at the end of their manufacturing process and in test houses; Post-dicing inspection of frame-mounted wafers at assembly and packaging facilities, where it adds the value of detecting dicing-related damage, and inspection and metrology of micro-electro mechanical systems (MEMS) and other special applications.
Condor 5LED is an AOI system designed to provide solutions to a range of requirements that are to light emitting diode (LED) semiconductor manufacturers. The LED market�� special inspection requirements are characterized by 3-6 inch wafers, each of which may contain between 100 to over 200 thousand LED devices per wafer. Typically, the wafer is made of a translucent compound semiconductor, such as g! allium ar! senide, gallium phosphide and/or indium phosphide. The Gannet system is designed for the front end market of the semiconductor industry.
The Company�� AOI products for this industry consist of five product lines: the Phoenix, Dragon and Orion for the inspection of inner and outer layers of PCB panels and ultra-fine-line IC substrate; large area masks (LAM) dedicated for inspection of artwork; and the Pegasus for final inspection (AFI) of IC substrates and high density interconnect (HDI) panels. The Phoenix product family, introduced in November 2011, is designed to support a range of the demanding PCB and IC substrate applications, while keeping in pace with the dynamic technology changes in the industry. The Phoenix product family is enhanced with Spark - Camtek's and detection engine providing high detection capabilities, while minimizing false calls.
Dragon systems are high-throughput, automation-ready systems for inspection of all PCB types in a mass production environment. Dragon models are optimized for specific PCB technology ranges - from mainstream circuits of typically 100 (microns) conductor line width, up to high density substrates having 12 (microns) wide conductive lines. All Dragon models are designed to interface with automated material handling mechanisms provided by the Company or other automation suppliers. Orion systems are stand-alone AOI systems for high volume inspection of all PCB types designed to operate in inspectify mode of operation. Inspectify is a mode of operation enabling the operator to perform verification immediately after inspection on the same system, thus saving time and eliminating handling-related defects.
LAM is specially designed for main-stream LAM inspection. It offers unparalleled detection ability on LAM with down to 25 (microns) line/space width technology. The LAM incorporates advanced technology innovations to ensure the level of detection that these masks require at this critical production stage. Camtek offers! various ! stand-alone verification systems that enable verification of panels after inspection. The Pegasus line includes systems for automated inspection of finished IC substrates that are subsequently used in packaging of ball grid array (BGA) and Chip Scale Package (CSP) devices. The Pegasus inspects both sides of the substrate, detecting process and mechanical defects, in particular in the gold-plated areas, where the substrate will interconnect with the silicon die or the PCB, and in the solder-mask areas. Pegasus models handle substrates in strip format in magazines.
GreenJet is a SM digital printing system aimed to replace the conventional SM application lines for prototypes and high mix low volume production. The GreenJet system offers manufacturers flexible and digital SM printing technology solution. The LGP system incorporates PCB digital legend printing technologies with specially developed heat curable ink, resulting in output and system performance. Camtek has developed the inks for both LGP and GreenJet, which involves different chemicals mixed together in order to reach the required ink characterization.
The Company competes with Rudolph Technologies Inc., KLA-Tencor Corporation, Topcon Corporation, Toray Industries, Inc., Hitachi Ltd., Nidec Tosok Corporation., FEI Company, SII Nanotechnology Japan, Carl Zeiss, Inc., Orbotech Ltd., Dainippon Screen Manufacturing Company, Lloyd-Doyle Limited, Gigavis Co. Ltd., ATI Electronics Pty Ltd., Shirai Electronics Industrial Co. Ltd., First EIE SA and MicroCraft K.K.
Advisors' Opinion:- [By James E. Brumley]
In retrospect, their pullbacks come as no real surprise. Neither Voxeljet AG (NYSE:VJET) nor Camtek LTD. (NASDAQ:CAMT) saw their shares soar on any news that was meaningfully sustainable, and after the "shoot first, ask questions later" market had a chance to start asking questions, it became clear that - even with the largest of glimmers of corporate progress unveiled a few weeks ago - CAMT and VJET both had been bid up more on hype and less on substance. Meanwhile (and this could be bitterly ironic to some), a small cap play in the same 3D printing space that (1) didn't beat the daylights out of its hype-drum, and (2) is actually much closer to bringing a revenue-bearing product to the market [per today's news - more on that below] isn't getting anywhere near the same attention. That company? Makism 3D Corp. (OTCBB:MDDD). The good news is, MDDD finally looks like it's revving its engine, while Camtek and Voxeljet AG shares continue to deteriorate.
- [By Eddie Staley]
In trading on Tuesday, technology shares were relative laggards, down on the day by about 1.68 percent. Top decliners in the sector included Camtek (NASDAQ: CAMT), down 15.54 percent, and MakeMyTrip (NASDAQ: MMYT), off 11.85 percent.
Best Semiconductor Stocks To Buy For 2014: Peregrine Semiconductor Corp (PSMI)
Peregrine Semiconductor Corporation (Peregrine), incorporated in February 1990, is engaged in the design, manufacturing and marketing radio frequency integrated circuits (RFICs) for the aerospace and defense, broadband, industrial, mobile wireless device, test and measurement equipment, and wireless infrastructure markets. The Company is provider of RFICs. Its products include RF switches-antenna, RFswitches-broadband and general purpose, digital attenuators, synthesizers, mixers/upconverters, prescalers, variable gain amplifiers, digitally tunable capacitors, DC-DC converters and power amplifiers. Its UltraCMOS technology enables the design, manufacture, and integration of multiple radio frequency (RF), mixed signal, and digital functions on a single chip. Its solutions target a range of applications in the aerospace and defense, broadband, industrial, mobile wireless device, test and measurement equipment, and wireless infrastructure markets.
As of December 25, 2010, The Company offers a portfolio of more than 120 RFICs, including switches, digital attenuators, mixers/upconverters, and prescalers, and it is developing power amplifiers (Pas), digitally tunable capacitors (DTCs), and DC-DC converters. During the fiscal year ended December 25, 2010, its products were sold to more than 1,400 module manufacturers, original equipment manufacturers (OEMs), contract manufacturers, and other customers, including such companies as Amalfi Semiconductor, Inc., The Boeing Company, EPCOS AG, Ericsson AB, Hitachi Media Electronics Company, Ltd., Hitachi Metals, Ltd., Humax Co., Ltd., Itron, Inc., LG Innotek Co., Ltd., Mini-Circuits, Inc., Motorola, Inc., Murata Manufacturing Company, Ltd., Planet Technology Corp., Rockwell Collins, Inc., Rohde & Schwarz, Inc., SIPAT Co., Ltd., Skyworks Solutions, Inc., Sony Corporation, Source Photonics, Inc., and Thales Alenia Space.
RF switches-antenna
RF Switches are utilized in the RF section of mobile devices to route RF signals between! the antenna and the handset core, through one or more signal paths. For mobile handsets, its switch products offer up to 10 RF signal paths with integrated digital bus support and onboard voltage regulation.
RFswitches-broadband and general purpose
The Company�� broadband and general purpose RF switches deliver combination of broadband linearity, settling time, and isolation while routing RF signals to their respective transmit or receive paths. Its attributes are being used by the OEMs of LED and plasma digital televisions (DTVs), set top box, cable infrastructure, test and measurement devices
Digital Attenuators
The Company provides digital step attenuators that are used to control the amplitude of an RF or analog signal. The products include digital control circuitry integrated with an RF attenuator core and are used in third generation (3G) and fourth generation (4G) cellular base stations, repeaters, and point-to-point nodes.
Synthesizers
The Company�� frequency synthesizers provide an electronic system for generating any of a range of frequencies from a single fixed timebase or oscillator. Its synthesizers provide low-power, ultra-low phase noise, programmable frequency synthesis for defense, broadband, industrial, and wireless infrastructure markets.
Mixers/Upconverters
The Company�� mixers/upconverters are used to translate encoded voice/data signals from one frequency to another to enable radio transmission. Its mixers / upconverters are incorporated into mixer modules and provide industry linearity, which is a metric to maximizing wireless data transmission rates. These attributes are critical in 3G and 4G cellular base station designs.
Prescalers
The Company�� prescalers operate in the C, X, and Ku bands to divide the frequency of a wireless signal in order to extend the operating range of a synthesizer beyond its base capability. Its prescalers complem! ent its f! requency synthesizer line, providing its customers with design.
Variable Gain Amplifiers
The Company�� Variable Gain Amplifiers (VGAs) are used in both the receiving and transmitting path of a radio system to maintain a signal�� strength at a level necessary for other circuits to operate optimally. Its DVGA is the monolithic integrated circuit (IC) to integrate three functional blocks, including digital attenuators, RF/IF amplifiers and a common serial interface onto a single IC.
DC-DC Converters
The Company�� frequency-configurable DC-DC converters efficiently perform voltage conversion using a high frequency switching technique that minimizes system noise. Its DC-DC converters are designed to enable a distributed power management architecture designed for satellite applications, replacing inefficient drop out regulators and central converters.
Power Amplifiers
The Company�� PAs amplify RF signals in order to generate the necessary power required to establish a radio link between a base station and a mobile device. With its UltraCMOS technology the Company has the ability to integrate its PAs on a single chip with other RF, mixed signal, and digital components.
The Company competes with Hittite, M/A-COM, NEC, Renesas, RFMD, Skyworks, Sony, Toshiba and TriQuint Semiconductor.
Advisors' Opinion:- [By Lee Jackson]
Peregrine Semiconductor Corp. (NASDAQ: PSMI) is a lesser known name that is a top stock to buy at Deutsche Bank. The company recently released a new radio frequency (RF) switch specifically designed for broadband cable systems. With HD content exploding, this could be a huge home run for the company. Deutsche Bank has a $14 price target for the stock, the same as the consensus target.
Best Semiconductor Stocks To Buy For 2014: Ambarella Inc (AMBA)
Ambarella, Inc., incorporated on January 15, 2004, is a developer of semiconductor processing solutions for video that enable high-definition (HD), video capture, sharing and display. The Company combine its processor design capabilities with its video and image processing, algorithms and software to provide a technology platform. It sells solutions into the camera and infrastructure markets, with approximately 27 million system-on-a-chips (SoCs) shipped since our inception. In the camera market, its solutions enable the creation of video content for wearable sports cameras, automotive aftermarket cameras, Internet Protocol (IP), security cameras, digital still cameras (DSCs), telepresence cameras, camcorders and pocket video cameras. In the infrastructure market, its solutions manage IP video traffic, broadcast encoding and IP video delivery applications. In 2012, the Company released its Wireless Camera Developers Kit. In 2012, it also launched S2 SoC, which enables Ultra High-Definition IP security cameras.
The Company sells its solutions to original design manufacturers (ODMs), and original equipment manufacturers (OEMs), globally. In the camera market, its video processing solutions are designed into products from OEMs, including Robert Bosch GmbH and affiliated entities, Samsung Electronics Co., Ltd. and Woodman Labs, Inc., doing business as (d/b/a) GoPro, or GoPro, who source its solutions from ODMs, including Ability Enterprise Co., Ltd., Asia Optical Co. Inc., Chicony Electronics Co., Ltd., DXG Technology Corp., Hon Hai Precision Industry Co., Ltd. and Sky Light Digital Ltd. In the infrastructure market, its solutions are designed into products from OEMs, including Harmonic Inc., Motorola Mobility, Inc. (owned by Google, Inc.) and Telefonaktiebolaget LM Ericsson, who source its solutions from ODMs, such as Plexus Corp.
AmbaClear
The Company�� image signal processing architecture, known as AmbaClear, incorporates advanced algorithms to convert raw senso! r data to high-resolution still and high-definition video images concurrently. Image processing algorithms include sensor, lens and color correction, demosaicing, which is a process used to reconstruct a full color image from incomplete color samples, noise filtering, detail enhancement and image format conversion.
AmbaCast
The Company�� HD video processing architecture, known as AmbaCast, incorporates advanced algorithms for motion estimation, motion-compensated temporal filtering, mode decision and rate control. It supports all three compression profilesbaseline, main and highas specified in the H.264 standard. Its solutions for the broadcast infrastructure market allow OEMs to offer both the H.264 and MPEG-2 encoding formats.
Design Methodology
The Company test and verify its algorithms on its architectural model prior to implementing algorithms in hardware. Its advanced verification methodology validates its approach through simultaneous modeling of architecture, algorithms and the hardware itself.
SoC Solution
The Company�� SoC designs integrate HD video processing, image processing, applications processing and system functions onto a single chip, delivering video and image quality with features, including advanced wireless connectivity. In addition, its SoCs integrate mixed signal (analog/digital) functionality and high speed interfaces required for interfacing to advanced high-speed CMOS sensors and industry standard interfaces, such as USB 2.0 and HDMI 1.4. Its A7L SoC, which it introduced in September 2011, is fabricated in edge 32 nanometer (nm) process technology and integrates AmbaClear and AmbaCast technology.
Software Development Kit for Connectivity
The Company�� video streaming technology enables the camera�� image to be previewed on a smartphone. To enable this functionality, end customers deploy its Wireless Camera Developer�� Kit, or the Kit, which enables the design of ca! meras tha! t combine still photography and Full HD video with wireless video streaming to smartphones. The Kit is available for its A7L SoC product family, providing full 1080p60 HD video with photography and low power consumption.
The Company competes with CSR Plc, Fujitsu Limited, HiSilicon Technologies Co., Ltd., Texas Instruments Incorporated, Canon Inc., Panasonic Corporation, Sony Corporation, Novatek Microelectronics Corp., Sunplus Technology Co. Ltd., Intel Corporation, Magnum Semiconductor, Inc., Texas Instruments Incorporated, Broadcom Corporation, NVIDIA Corporation, Qualcomm Incorporated and Samsung.
Advisors' Opinion:- [By Rich Smith]
Ambarella just crashed
Following a Street.com report detailing insider selling at Ambarella (NASDAQ: AMBA ) earlier this week, and a downgrade of the stock to hold by Needham & Co. earlier this morning, shares of the high-def "system-on-a-chip" semiconductor maker are plunging, down nearly 8% at last report. Should investors be worried? - [By Michael A. Robinson]
Take a look at Ambarella Inc. (Nasdaq: AMBA), a fast-moving, small-cap firm that is focused on the rapidly emerging market for ultra-high-definition televisions (UHDTV).
- [By Rick Munarriz]
I've suggested that investors buy Ambarella (NASDAQ: AMBA ) instead of GoPro. It's the lone provider of�video compression and image processing semiconductors for GoPro's cameras, but Ambarella isn't hogtied to GoPro's popularity. Ambarella's presence in Dropcam surveillance cameras and a recent deal for Google Helpouts provide diversification in high-def cameras.�
- [By MONEYMORNING.COM]
120% on Ambarella Inc. (Nasdaq: AMBA), recommended on Aug. 8 at $16.60. The stock is still up 60% from where we recommended it, and we believe it could get a nice boost from the looming IPO of extreme sports camera maker GoPro Inc.
Best Semiconductor Stocks To Buy For 2014: Fairchild Semiconductor International Inc (FCS)
Fairchild Semiconductor International, Inc. (Fairchild) focuses on developing, manufacturing and selling power analog, power discrete and certain non-power semiconductor solutions to a range of end market customers. The Company is a supplier of power analog products, power discrete products and energy-efficient solutions, according to iSuppli. Its products are used in a range of electronic applications, including sophisticated computers and Internet hardware; communications, including wireless phones; networking and storage equipment; industrial power supply and instrumentation equipment; consumer electronics, such as digital cameras, displays, audio/video devices and household appliances, and automotive applications.
The Company�� product groups are organized by the end markets, which include Mobile, Computing, Consumer and Communication (MCCC), Power Conversion, Industrial and Automotive (PCIA) and Standard Discrete and Standard Linear (SDT). It invested in the wafer fabrication power semiconductor technology, including low and mid voltage PowerTrench, advanced insulated gate bipolar transistor (IGBT), as well as advanced high power metal oxide semiconductor field effect transistors (MOSFET) fabrication technologies.
Mobile, Computing, Consumer and Communication (MCCC)
The Company designs, manufactures and markets high-performance analog and mixed signal integrated circuits, low voltage power MOSFETs for mobile, consumer, computing, and communication applications. It has a portfolio of PowerTrench technology products. Its analog and mixed signal products are focused on the mobile end- markets.
Analog products monitor, interpret, and control continuously variable functions, such as light, color, sound, and energy. It forms the interface with the digital world. It provides a range of analog products that perform such tasks as voltage regulation, audio amplification, power and signal switching and system management. Analog voltage regulation circ! uits are used to provide constant voltages, as well as step up or step down voltage levels on a circuit board. These products enable improvements in power efficiency, lighting management, and improve charge times in ultraportable products. These products are used in a variety of mobile, computing, communications and consumer applications.
In addition to the power analog and interface products, it also offers signal path products. These include analog and digital switches, universal serial bus (USB) switches, video filters and high performance audio amplifiers. The analog switch functions are typically found in cellular handsets and other ultra portable applications. The video products provide a single chip solution to video filtering and amplification. Video filtering applications include set top boxes and digital television. Its solutions include surface mount devices, tiny packages, chip scale packages, and leadless carriers.
The Company also design, manufacture and market power semiconductor solutions for computing, communications, mobile, consumer and industrial applications. Power semiconductor solutions include, power discrete MOSFETs, analog integrated circuits, and fully integrated multi-chip and monolithic power solutions. Its power MOSFETs are primarily used in power delivery and power control applications. Power delivery and control applications are ubiquitous across data consumption, processing and communication applications. It produces advanced low power MOSFETs under its PowerTrench brands. The advanced power MOSFETs applications are used in smartphones, tablets, notebook personal computer, high performance gaming, home entertainment systems, servers, data communication, and routers.
The Company competes with Analog Devices, Inc., Linear Technology Corporation, Maxim Integrated Product, Inc., Micrel Inc, ON Semiconductor Corporation, ST Microelectronics N.V., Intersil Corporation, International Rectifier Corporation, Infineon Technologies AG and T! exas Inst! ruments Incorporated.
Power Conversion, Industrial and Automotive (PCIA)
Fairchild design, manufacture and market power discrete semiconductors, analog and mixed signal integrated circuits (ICs) for broad power conversion/power management, industrial, and automotive applications. Its products are building blocks that help convert a semi-regulated energy source (alternating current (AC)or direct current (DC)) to a regulated output for electronic systems (AC-DC, DC-AC, and DC-DC conversion). Its discrete devices are individual diodes or transistors that perform power switching, power conditioning and signal amplification functions in electronic circuits. The Company�� analog and mixed signal integrated circuits (IC) are used to control discrete semiconductors in applications, such as power switching, conditioning, signal amplification, power distribution and power consumption. It manufacture discrete products using vertical DMOS MOSFETs, Insulated Gate Bipolar Transistors (IGBT), Bipolar, and ultrafast rectifier technologies. It manufacture analog and mixed signal ICs using a range of bipolar (Bi), complementary metal oxide (CMOS), BiCMOS, and bipolar/CMOS/DMOS (BCDMOS) processes up to 1,200 volts and down to 0.35um (microns) minimum geometry.
Power MOSFETs are used in applications to switch, shape or transfer energy. These products are used in a range of high-growth applications, including solar inverters, uninterruptible power supplies (UPS), data centers and communications, motors, lighting, automotive, computing, displays and industrial supplies. It produce advanced power MOSFETs under its SupreMOS, SuperFET, PowerTrench, UniFET and QFET brands. IGBTs are high-voltage power discrete devices. They are used in switching applications for solar inverters, uninterruped power supply, data centers and communications, motors, industrial, power supplies, displays, television and automotive ignition systems. These applications require lower switching frequencies, highe! r power, ! and/or higher voltages than a power MOSFET can provide. It is a supplier of IGBTs. Rectifier products work with IGBTs and MOSFETs in many applications to provide power conversion and conditioning. Its product is the STEALTH rectifier, providing industry performance and efficiencies in data communications, industrial power supply, displays, television, and motor applications.
Leveraging its power MOSFET and IGBT technologies, it also design and manufacture modules for the industrial, automotive, and home appliance end markets. It design and develop a line of smart power modules (SPM) products targeted to various end applications in consumer white goods and industrial applications, which include room air conditioners, industrial power supplies, solar inverters, pumps, and industrial motors. These are multi-chip modules containing up to 28 components in a single package that includes diodes, power discrete IGBTs or MOSFETs, high voltage power management driver ICs and current and temperature sensors. Similar modules, called APM, are used in automotive applications.
The Company design and manufacture power management semiconductors for line-powered and off-line powered systems that integrate its Power MOSFETs. It sell and market off-line and isolated DC-DC ICs, MOSFET and IGBT gate driver ICs, and power factor correction ICs to the consumer, computing, display, television, lighting and industrial segments.
The Company competes with Infineon Technologies AG, ST MicroelectronicsN.V., International Rectifier Corporation, Toshiba Corporation, Mitsubishi Corporation, Texas Instruments Incorporated, Power Integrations, Inc., ON Semiconductor Corporation, NXP Semiconductors N.V. and Vishay Intertechnology, Inc.
Standard Linear and Standard Discrete (SDT)
Standard Diodes and Transistors products cover a range of semiconductor products, including MOSFET, junction field effect transistors (JFETs), high power bipolar, discrete small signal transistors, TVS,! Zeners, ! rectifiers, bridge rectifiers, Schottky devices and diodes. The Company design, manufacture and market analog integrated circuits for computing, consumer, communications, ultra-portable and industrial applications. These products are manufactured using bipolar, CMOS and BiCMOS technologies. Standard Linear solutions range from bipolar regulators, shunt regulators, low drop out regulators, standard op-amp/comparators, low voltage op-amps, and others. Analog voltage regulator circuits are used to provide constant voltages, as well as to step up or step down voltage levels on a circuit board. Op-amps/comparators are designed specifically to operate from a single power supply over a range of voltages. It also offer low-voltage op-amps that provide a combination of low power, rail-to-rail performance, low voltage operation, and tiny package options which are well suited for use in personal electronics equipment. Its solutions include surface mount devices, tiny packages and leadless carriers.
The Company competes with International Rectifier Corporation, Diodes Incorporated, NXP Semiconductors N.V., ST Microelectronics N.V., ON Semiconductor Corporation, Texas Instruments Incorporated, Vishay Intertechnology, Inc., Vishay Intertechnology, Inc, Osram Opto Semiconductors, OPTEK Technology, OMRON Corporation, Avago Technologies Ltd. and Kodenshi Corp.
Advisors' Opinion:- [By Alex Planes]
The Atari 2600 launched at a cost of $199 (equal to about $750 today) in the fall of 1977. The console's first two years on the market almost sent it the way of the Osyssey, since Atari managed to sell less than one million units by the end of 1978�. However, Fairchild Semiconductor's (NYSE: FCS ) decision to abandon console gaming in 1979 (it had actually beaten Atari to market with the Channel F in �1976, but sold fewer units than the 2600), coupled with the launch of a Space Invaders cartridge for the 2600 in 1980, gave Atari a clear path to huge sales. Two years later, the 2600 had reached ten million households, and console gaming had a foothold. Atari was briefly the crown jewel in Warner's entertainment empire, but this success wouldn't last.
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