On Target In Q2, But With Some Positive Underlying Drivers
Given that Texas Instruments provides mid-quarter updates, big surprises in reported earnings are relatively rare for Texas Instruments, and this quarter was no exception. That said, there were some positive details to note, and guidance sounded pretty encouraging to me.
Revenue fell 9% from the year-ago level, but rose 6% sequentially. Analog sales fell 3% and rose 6% over those periods, while embedded revenue rose 7% and 10%. It's too bad that Texas Instruments doesn't break out its end-market revenues, but management did indicate that there was strength in HPA, SVA, and MCU in the industrial market and ASSP, OMAP, and DLP in automobiles.
Top Oil Service Stocks To Watch For 2015: 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 Ashraf Eassa]
Background on Samsung and ARM
While Qualcomm's chips feature all-Qualcomm IP from the applications processor to the graphics, Samsung's Exynos chips have largely consisted of off-the-shelf ARM (NASDAQ: ARMH ) Cortex A-series CPUs with either ARM Mali GPUs or Imagination's PowerVR. Naturally, while off-the-shelf IP aimed at multiple different markets isn't quite going to be as optimal as custom-tailored IP, the IP that is available is, for the most part, quite good. Further, there's no reason that Samsung can't/won't develop its own custom IP if it needs something more fine-tuned for its need. - [By Paul Ausick]
We have tracked the key short interest changes as of September 30 in the following semiconductor leaders: Intel Corp. (NASDAQ: INTC), Advanced Micro Devices Inc. (NYSE: AMD), Micron Technology Inc. (NASDAQ: MU), SanDisk Corp. (NASDAQ: SNDK), Qualcomm Inc. (NASDAQ: QCOM), ARM Holdings PLC (NASDAQ: ARMH), Broadcom Corp. (NASDAQ: BRCM), Marvell Technology Group Ltd. (NASDAQ: MRVL), Nvidia Corp. (NASDAQ: NVDA), Texas Instruments Inc. (NASDAQ: TXN) and Applied Materials Inc. (NASDAQ: AMAT). We also chose to look at how the Market Vectors Semiconductor ETF (NYSEMKT: SMH) has held up.
- [By Zarr Pacificador]
A look at ARM
Today I'm evaluating�ARM Holdings� (LSE: ARM ) (NASDAQ: ARMH ) , the world's leading semiconductor intellectual property supplier,�which currently trades at 1,066 pence. Here are my thoughts: - [By David O��ara]
LONDON --�Micro-chip designer�ARM Holdings� (LSE: ARM ) (NASDAQ: ARMH ) has long been a stock market darling. The huge rating that it traded on 10 years ago has been fully justified by its recent profitability.
Hot Semiconductor Stocks To Invest In 2014: 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 Evan Niu, CFA]
Cook also noted certain weaknesses such as color saturation and brightness with OLED displays back in February at a Goldman Sachs conference, which sent shares of Universal Display (NASDAQ: OLED ) reeling briefly before the OLED specialist recovered. That was likely a knock directed more in Samsung's direction, since the South Korean company is the biggest proponent of OLED displays in mobile devices, but Samsung is also Universal Display's biggest customer. Universal Display simply got caught in the crossfire.
- [By Steve Symington]
Hold on to your hats, Universal Display Corp. (NASDAQ: OLED ) investors, because it's time to delve into what to expect from your favorite OLED technologist in 2014.
- [By Dan Caplinger]
Stocks finished the week on the plus side, as the Dow hit a new high, and the broader market held its own against more bearish investors who are arguing more forcefully that the long bull market has to come to an end at some point. Several stocks helped to build some excitement for market participants, and Clean Energy Fuels (NASDAQ: CLNE ) , Universal Display (NASDAQ: OLED ) , and Nuverra Environmental Solutions (NYSE: NES ) were among the best-performing stocks in the market Friday.
- [By Esekla]
Universal Display (OLED) is another company that is changing its ticker symbol (on 6/24, from PANL). My research indicates that this stock is trading well below fair value, which should limit risk, though the volatility figures and revenue predominantly from Samsung (SSNLF.PK) argue otherwise. The reason for the price slump is probably a scale back of sales estimates for the Galaxy S IV, but since Samsung will sell all the OLED displays it can produce, regardless of the devices they go into, this reaction seems unwarranted.
Hot Semiconductor Stocks To Invest In 2014: Xilinx Inc (XLNX)
Xilinx, Inc. (Xilinx), incorporated on February 5, 1984, designs, develops and markets programmable platforms. These programmable platforms have a number of components, including integrated circuits (ICs) in the form of programmable logic devices (PLDs), including Extensible Processing Platforms (EPPs); software design tools to program the PLDs; targeted reference designs; printed circuit boards, and intellectual property (IP), which consists of Xilinx and various third-party verification and IP cores. In addition to its programmable platforms, Xilinx provides design services, customer training, field engineering and technical support. The Company�� PLDs include field programmable gate arrays (FPGAs), complex programmable logic devices (CPLDs) that its customers program to perform logic functions, and EPPs. Xilinx�� products are offered to electronic equipment manufacturers in end markets, such as wired and wireless communications, industrial, scientific and medical, aerospace and defense, audio, video and broadcast, consumer, automotive and data processing. The Company sells its products globally through independent domestic and foreign distributors and through direct sales to original equipment manufacturers (OEMs) by a network of independent sales representative firms and by a direct sales management organization. In January 2011, the Company acquired AutoESL Design Technologies, Inc. In August 2012, the Company acquired embedded Linux solutions provider PetaLogix.
Product Families
The 7 series devices that comprise the Company�� 28-nanometer (nm) product families are fabricated on a high-K metal gate 28-nm process technology. These devices are based on an architecture, which enables design and IP portability and re-use across all families, as well as provides designers the ability to achieve the appropriate combination of I/O support, performance, feature quantities, packaging and power consumption to address a range of applications. The 7 series devices consist of! three families: Virtex-7 FPGA, Kintex-7 FPGAs and Artix-7 FPGAs. The Zynq-7000 family is the family of Xilinx EPPs. The Virtex-6 FPGA family consists of 13 devices and is the sixth generation in the Virtex series of FPGAs.
Virtex-6 FPGAs are fabricated on a high-performance, 40-nm process technology. There are three Virtex-6 families: Virtex-6 LXT FPGAs, Virtex-6 SXT FPGAs and Virtex-6 HXT FPGAs. The Spartan-6 family is the PLD industry�� 45-nm high-volume FPGA family, consisting of 11 devices in two product families: Spartan-6 LX FPGAs and Spartan-6 LXT FPGAs. The Virtex-5 FPGA family consists of 26 devices in five product families: Virtex-5 LX FPGAs for logic-intensive designs, Virtex-5 LXT FPGAs for high-performance logic with serial connectivity, Virtex-5 SXT FPGAs for high-performance DSP with serial connectivity, Virtex-5 FXT FPGAs for embedded processing with serial connectivity and Virtex-5 TXT FPGAs for high-bandwidth serial connectivity. Prior generation Virtex families include Virtex-4, Virtex-II Pro, Virtex-II, Virtex-E and the original Virtex family. Spartan family FPGAs include 90-nm Spartan-3 FPGAs, the Spartan-3E family and the Spartan-3A family. Prior generation Spartan families include Spartan-IIE, Spartan-II, Spartan XL and the original Spartan family.
Design Platforms and Services
The Company offers three types of programmable platforms. The Base Platform is the delivery vehicle for all of its new silicon offerings used to develop and run customer-specific software applications and hardware designs. The Base Platform consists of FPGA silicon; Integrated Software Environment (ISE) Design Suite design environment; integration support of optional third-party synthesis, simulation, and signal integrity tools; reference designs; development boards and IP. The Domain-Specific Platform targets one of the three primary Xilinx FPGA user profiles: the embedded processing developer; the DSP developer; or the logic/connectivity developer. The Market-S! pecific P! latform enables software or hardware developers to build and run their specific application or solution. Built for specific markets, such as automotive, consumer, aerospace and defense, communications, audio, video and broadcast, industrial, or scientific and medical, the Market-Specific Platform integrates both the Base and Domain-Specific Platforms.
During April 2012, Xilinx introduced the Vivado Design Suite. Vivado supports Xilinx 7 series FPGAs and Zynq EPPs. Xilinx and various third parties offer hundreds of no charge and fee-bearing IP core licenses covering Ethernet, memory controllers Interlaken and PCIe interface, as well as domain-specific IP in the areas of embedded, DSP and connectivity, and market-specific IP cores. The Company also offers development kits, including hardware, design tools, IP and reference designs. Xilinx offers a range of configuration products, including one-time programmable and in-system programmable storage devices to configure Xilinx FPGAs. These programmable read-only memory (PROM) products support all of the Company�� FPGA devices. Xilinx and certain third parties have developed and offer a ecosystem of IP, boards, tools, services and support through the Xilinx alliance program. Xilinx also works with these third parties to promote its programmable platforms through third-party tools, IP, software, boards and design services. Xilinx engineering services provide customers with engineering, ranging from hands-on training to full design creation and implementation.
The Company competes with Altera Corporation, Lattice Semiconductor Corporation and Microsemi Corporation.
Advisors' Opinion:- [By Rich Smith]
The Department of Defense awarded Lockheed Martin (NYSE: LMT ) a $104.7 million defense contract Monday -- but semiconductor maker Xilinx (NASDAQ: XLNX ) could be the real winner in this contract.
Hot Semiconductor Stocks To Invest In 2014: 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 Paul Ausick]
SunEdison Inc. (NYSE: SUNE), like SunPower, has had a booming year. The share price is up more than 265% in the past 12 months. Shares closed at $14.01 Monday night, in a 52-week range of $3.64 to $14.71. With a price target of around $15.20, the potential upside is nearly 8%. Expected 2014 EPS is $0.56, and the stock’s forward P/E ratio is around 25. The company is planning to spin off its semiconductor wafer business during the first quarter.
- [By Jake L'Ecuyer]
SunEdison (NYSE: SUNE) was also down, falling 11.18 percent to $11.36 after it lowered its fourth quarter and fiscal year guidance before the open Thursday.
Hot Semiconductor Stocks To Invest In 2014: CSR PLC (CSRE)
CSR plc is an United Kingdom-based holding company. The Company is a provider of multifunction connectivity, audio, and location platforms. The Company is engaged in designing and supplying of integrated circuits (silicon chips) and multifunction platforms for a range of devices and applications that are used in a range of consumer electronics products. It operates in three segments: Automotive, Voice and Music and Consumer. Automotive segment includes automotive infotainment and portable navigation devices. Voice and Music segment representing all its audio products. Consumer segment includes gaming, home entertainment, personal computers (PCs), tablets, document imaging, health and fitness, and cameras. The Company�� subsidiaries include Cambridge Silicon Radio Holdings Limited and NordNav Technologies Aktiebolag. Advisors' Opinion:- [By reports.droy]
CSR (CSRE), which recently rejected a $2.5 billion takeover offer from Microchip Technology (MCHP), has just been bagged by Qualcomm Inc. (QCOM) for $2.5 billion.
Hot Semiconductor Stocks To Invest In 2014: Micropac Industries Inc (MPAD)
Micropac Industries, Inc. (Micropac), incorporated on March 3, 1969, manufactures and distributes various types of hybrid microelectronic circuits, solid state relays, power operational amplifiers, and optoelectronic components and assemblies. Micropac�� products are used as components in a range of military, space and industrial systems, including aircraft instrumentation and navigation systems, power supplies, electronic controls, computers, medical devices, and high-temperature (200o degree Celsius) products. The Company�� products are either custom (being application-specific circuits designed and manufactured to meet the particular requirements of a single customer) or standard components. During the fiscal year ended December 31, 2011 (fiscal 2011), its custom-designed components accounted for approximately 34% of its revenue and standard components accounted for approximately 66% of its revenue.
Micropac occupies approximately 36,000 square feet of manufacturing, engineering and office space in Garland, Texas. The Company owns 31,200 square feet of that space and leases an additional 4,800 square feet. It also sub-contracts some manufacturing to Inmobiliaria San Jose De Ciuddad Juarez S.A. DE C.V, a maquila contract manufacturer in Juarez, Mexico.
Micropac provides microelectronic and optoelectronic components and assemblies along with contract electronic manufacturing services, and offers a range of products sold to the industrial, medical, military, aerospace and space markets. The Microcircuits product line includes custom microcircuits, solid state relays, power operational amplifiers, and regulators. During fiscal 2011, microcircuits product line accounted for 51% of its revenue and the optoelectronics product line accounted for 62% of its business respectively. The Company�� core technology is the packaging and interconnects of miniature electronic components, utilizing thick film and thin film substrates, forming microelectronics circuits. Other technologi! es include light emitting and light sensitive materials and products, including light emitting diodes and silicon phototransistors used in its optoelectronic components, and assemblies.
The Company�� basic products and technologies include custom design hybrid microelectronic circuits, solid state relays and power controllers, custom optoelectronic assemblies and components, optocouplers, light-emitting diodes, Hall-Effect devices, displays, power operational amplifiers, fiber optic components and assemblies, and high temperature (200o degree Celsius) products. Micropac�� products are primarily sold to original equipment manufacturers (OEM��) who serve major markets, which includes military/aerospace, such as aircraft instrumentation, guidance and navigations systems, control circuitry, power supplies and laser positioning; space, which include control circuitry, power monitoring and sensing, and industrial, which includes power control equipment and robotics.
The Company�� products are marketed throughout the United States and in Western Europe. During fiscal 2011, approximately 21% of the Company�� revenue was from international customers. The Company�� major customers include contractors to the United States Government. During fiscal 2010, sales to these customers for the Department of Defense (DOD) and National Aeronautics and Space Administration (NASA) contracts accounted for approximately 62% of its revenues. The Company�� customers are Lockheed Martin, Northrop Grumman, Boeing, Rockwell Int��, and NASA.
The Company compete with Teledyne Industries, Inc., MS Kennedy, Honeywell, Avago and International Rectifier.
Advisors' Opinion:- [By Geoff Gannon] % of NCAV, has similar (slightly better) z- and f-scores, a FCF margin of 6%, but has ROA of 28%.
ADDvantage (AEY) sells at 95% of NCAV, has similar (in the ballpark) scores and FCF and ROA of 23%.The slightly better businesses are currently more expensive in terms of price/NCAV. They have less asset-based downside protection, but they are better businesses.
How do you quantify and qualify what is cheap enough? To me, there's a big difference in relative cheapness in a company selling at 74% of NCAV versus one selling at 95%. I'm wondering if I'm putting too much weight on this cheapness measurement instead of acknowledging that any decent business selling at less than NCAV is cheap enough. Yet, one has to have some quantifiable idea of when something is not cheap enough anymore.
Can you help me put this into a unified framework?
Dan
There�� a great post over at Oddball Stocks called: �� Stock is a Business�� Read it. Then go over to Richard Beddard�� Interactive Investor Blog. Bookmark that blog. Read it religiously. He looks at Ben Graham type stocks in the U.K. And he looks at them not just as stocks but as pieces of a business.
Here�� what Richard said in a post called ��iving Up on Mastery of the Universe��
I need to know:
1. Whether the managers have made good decisions in the past, and whether their incentives work in the interests of the owners, because those kind of managers often add value to a company.
2. The products a company sells will still be in demand for years to come, because if they��e not then the past, which we know, does not tell us anything about the future, which we don��.
3. A company is financially strong enough to withstand the kinds of shocks companies typically experience bearing in mind some are more sensitive to events than others.
4. How to judge whether the share price undervalues the company, bearing in mind the preceding three factors.
- [By Geoff Gannon] strong>ADDvantage Technologies (AEY)
路 Solitron Devices (SODI)
路 OPT-Sciences (OPST)
Micropac
Micropac is 76% owned by Heinz-Werner Hempel. He�� a German businessman. You can see the German company he founded here. He�� had control of Micropac for a long-time. I don�� have an exact number in front of me. But I would guess it�� been something like 25 years.
ADDvantage
ADDvantage Technologies is controlled by the Chymiak brothers. See the company�� April 4 press release explaining their decision to turn over the CEO position to an outsider. Regardless, the Chymiaks still control 47% of the company. Ken Chymiak is now chairman. And David Chymiak is still a director and now the company�� chief technology officer. Clearly, it�� still their company.
By the way, the name ADDvantage Technologies has nothing to do with the Chymiaks. Today�� AEY really traces its roots to a private company called Tulsat. The Chymiak brothers acquired that company about 27 years ago. So, effectively, when you buy shares of AEY you are buying into a 27-year-old family-controlled company.
That�� pretty typical in the world of net-nets.
Solitron
Solitron Devices is 29% owned by Shevach Saraf. He has been the CEO for 20 years. The post-bankruptcy Solitron has never known another CEO. Before the bankruptcy, Solitron was a much bigger, much different company. So even though we are not talking about the founder here ��and even though 70% of the company�� shares are not held by the CEO ��we��e still talking about a company where one person has a lot of control. Solitron only has three directors. Saraf is the chairman, CEO, president, CFO and treasurer. Neither of the other two directors joined the board within the last 15 years. So, we aren�� talking about a lot of tumult at the top.
In fact, profitable net-nets seem to be especially common candidates for abandoning the responsibilities of a public comp
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