Top 5 Semiconductor Stocks To Buy Right Now

As the launch of the Apple Inc. (Nasdaq: AAPL) iPhone 6 careens our way, we're seeing more and more speculation that the iDevice king wants to add digital payments to its "ecosystem."

And that's going to further supercharge the business of NXP Semiconductors NV (Nasdaq: NXPI), the specialized chipmaker whose shares are up 195% since we recommended them back in May 2012.

Let us show you why...

The "Smart" Money... Really

Apple is working with the Eindhoven, Netherlands-based NXP to add "near-field communications" (NFC) technology to the new iPhone 6. Apple has scheduled one of its major marketing events for Tuesday, Sept. 9. Most folks are expecting the company to introduce the iPhone 6, the iWatch, and a digital-payments service.

According to reports in the Financial Times and Bloomberg News, Apple has included NXP's NFC chips in the new iPhone - and perhaps in the iWatch, as well.

NFC technology works just as the name indicates: It allows device owners to pay for purchases by wirelessly connecting to checkout terminals or ticketing systems.

Hot Retail Companies To Invest In Right Now: 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.

Top 5 Semiconductor Stocks To Buy Right Now: 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 Bryan Murphy]

    It's fun to be right, but it's also important to be right in a sustainable way. Otherwise, what's the point? While it remains to be seen if yours truly was right regarding his call last week on Camtek LTD. (NASDAQ:CAMT) [it's not looking ideal], it's worth another look at CAMT, if only to see how much progress has been made and what needs to happen now.

Top 5 Semiconductor Stocks To Buy Right Now: 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 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.

  • [By Adam Haigh]

    ASX Ltd. (ASX) posted the biggest weekly loss in 3 1/2 years, falling 6.1 percent to A$33.15, amid a A$553 million ($530 million) capital raising at the operator of Australia�� main stock exchange to ensure its clearing business complies with new regulations.

  • [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:

Top 5 Semiconductor Stocks To Buy Right Now: ARM Holdings PLC (ARMH)

ARM Holdings plc (ARM), incorporated on October 16, 1990, designs microprocessors, physical intellectual property (IP) and related technology and software, and sells development tools. As of December 31, 2012, the Company operated in three business segments: the Processor Division (PD), the Physical IP Division (PIPD) and the System Design Division (SDD). ARM licenses and sells its technology and products to international electronics companies, which in turn manufacture, markets and sells microprocessors, application-specific integrated circuits (ASICs) and application-specific standard processors (ASSPs) based on ARM�� technology to systems companies for incorporation into a range of end products. It also licenses and sells development tools directly to systems companies and provides support services to its licensees, systems companies and other systems designers.

ARM processor architecture and physical IP is used in embedded microprocessor applications, including cellular phones, digital televisions, mobile computers and personal computer peripherals, smart cards and microcontrollers. ARM�� principal geographic markets are Europe, the United States and Asia Pacific. ARM�� product offering includes microprocessor Cores: RISC microprocessor cores, including specific functions, such as video and graphics IP and on-chip fabric IP; embedded software; physical IP; development tools, and support and maintenance services.

Processor Division

The PD encompasses those resources that are centered on microprocessor cores, including specific functions, such as graphics IP, fabric IP, embedded software IP and configurable digital signal processing (DSP) IP. Service revenues consist of design consulting services and revenues from support, maintenance and training.

Physical IP Division

The PIPD is focused on building blocks for translation of a circuit design into actual silicon. During the year ended December 31, 2012, the Company�� total av! erage PIPD headcount was 557. ARM is a provider of physical IP components for the design and manufacture of integrated circuits, including systems-on-chip (SoCs). ARM Artisan physical IP products include embedded memory, standard cell and input/output components. Artisan physical IP also includes a limited portfolio of analog and mixed-signal products. ARM�� physical IP components are developed for a range of process geometries ranging from 20 nanometer - 250 nanometer. ARM licenses its products to customers for the design and manufacture of integrated circuits used in complex, high-volume applications, such as portable computing devices, communication systems, cellular phones, microcontrollers, consumer multimedia products, automotive electronics, personal computers and workstations and many others.

ARM�� embedded memory components include random access memories, read only memories and register files. These memories are provided in the form of a configurable memory compiler, which allows the customer to generate the appropriate configuration for the given application. ARM�� memory components include many configurable features, such as power-down modes, low-voltage data retention and fully static operation, as well as different transistor options to trade off performance and power. In addition, ARM�� memory components include built-in test interfaces that support the industry test methodologies and tools. ARM memory components also offer redundant storage elements.

ARM�� memory components are designed to enable the chip designer maximum flexibility to achieve the optimum power, performance, and density trade-off. ARM offers standard cell components that are optimized for high performance, high density or ultra high density. ARM logic products deliver optimal performance, power and area when building ARM Processors, Graphics, Video and Fabric IP along with general SoC subsystem implementation. ARM delivers physical interface for a range of DDR SDRAM (double-data rate s! ynchronou! s dynamic random-access memory) applications ranging from mission critical applications to low-power memory sub-systems. Silicon on Insulator (SOI) products is an alternative methodology to traditional semiconductor fabrication techniques.

System Design Division

The SDD is focused on the tools and models used to create and debug software and system-on-chip (SoC) designs. ARM�� software development tools help a software design engineer deliver products right the first time. Engineers use these tools in the design and deployment of code, from applications running on open operating systems right through to low-level firmware. The ARM Development Studio is a hardware components that allow the software designer to connect to a real target system and control the system for the purposes of finding errors in the software. The ARM DSTREAM unit allows the software developer to control the software running on the prototype product and examine the internal state of the prototype product. ARM Development Boards are ideal systems for prototyping ARM-based products. The ARM Microcontroller Development Kit supports ARM-based microcontrollers and 8051-based microcontrollers from companies, such as Analog Devices, Atmel, Freescale, Fujitsu, NXP, Samsung, Sharp, STMicroelectronics, Texas Instruments and Toshiba. The ARM Microcontroller Development Kit is used by developers who are building products and writing software using standard off-the-shelf microcontrollers.

The ARM Microprocessor Families

ARM architecture processors offers a range of performance options in the ARM7 family, ARM9 family, ARM11 family, ARM Cortex family and ARM SecurCore family. The ARM architecture gives systems designers a choice of processor cores at different performance/price points. The ARM7 offers 32-bit architecture capable of operating from 8/16-bit memory on an 8/16-bit bus through the implementation of the Thumb instruction set. The ARM9 family consists of a range of microprocessors in ! the 150-2! 50MHz range. Each processor has been designed for a specific application or function, such as an application processor for a feature phone or running a wireless fidelity (WiFi) protocol stack. The ARM9 family consists of a range of microprocessors in the 150-250 megahertz range. The ARM11 family consists of a range of microprocessors in the 300-600 megahertz range. ARM Cortex family is ARM�� family of processor cores based on version 7 of the ARM Architecture. The family is split into three series: A Series, A Series and M Series.

Advisors' Opinion:
  • [By Royston Wild]

    Today I am looking at ARM Holdings (LSE: ARM  ) (NASDAQ: ARMH  ) to see how whether it makes a good GARP share.

    What are ARM Holdings' earnings expected to do?

  • [By Jessica Alling]

    Intel (NASDAQ: INTC  ) is right behind HP, with a 1.62% drop as of this writing. Intel may be on the receiving end of the negative backlash against HP, since the device maker's recently introduced new line of laptops uses Intel processors. Otherwise, the chip maker has been getting a variety of positive news. Its battle with ARM Holding (NASDAQ: ARMH  ) is looking like it might finally swing in Intel's favor, as ARM's stranglehold on the mobile and tablet markets may finally be loosening. Intel is providing the processors and chips for a variety of new devices that will push it further into the market, eating away at ARM's dominance.

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