Global Lock-in Amplifier Module Market size was valued at US$ 167 million in 2024 and is projected to reach US$ 238 million by 2032, at a CAGR of 5.1% during the forecast period 2025-2032 

Lock-in Amplifier Module Market Overview

A lock-in amplifier module is an amplifier that can extract a signal with a known carrier from extremely noisy environments. It is essentially an analog multiplier followed by a low pass filter. In effect, a lock-in amplifier converts a high-frequency signal into a DC component or very low frequency. It is widely used to measure signals that are otherwise covered by noise.

The U.S. market size is estimated at USD 75 million in 2024, while China’s market is projected to reach USD 50 million in the same year.

The Single Phase segment is expected to reach USD 120 million by 2032, growing at a CAGR of 6.5% during the forecast period 2026–2032.

The global key manufacturers of Lock-in Amplifier Module include FEMTO Messtechnik GmbH, Newport, Zurich Instruments, AMETEK, Stanford Research Systems, TeachSpin, Hinds Instruments, NF Corporation, Liquid Instruments, Anfatec, etc. In 2024, the global top five players had a share approximately % in terms of revenue. We have surveyed the Lock-in Amplifier Module manufacturers, suppliers, distributors, and industry experts on this industry, involving the sales, revenue, demand, price change, product type, recent development and plan, industry trends, drivers, challenges, obstacles, and potential risks This report aims to provide a comprehensive presentation of the global market for Lock-in Amplifier Module, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Lock-in Amplifier Module. This report contains market size and forecasts of Lock-in Amplifier Module in global, including the following market information:

Global Lock-in Amplifier Module market revenue, 2020-2025, 2026-2032, ($ millions)

Global Lock-in Amplifier Module market sales, 2020-2025, 2026-2032, (K Units)

Global top five Lock-in Amplifier Module companies in 2024 (%)

Lock-in Amplifier Module Key Market Trends  :

Growing Demand in Research Laboratories Lock-in amplifiers are increasingly used in laboratories for precise measurement of weak signals, driving the demand in scientific research and development.

Integration with Digital Technologies Advancements in integrating lock-in amplifiers with digital signal processing enhance accuracy and usability, expanding applications in medical and industrial fields.

Rising Industrial Applications Increased use in industrial environments for monitoring and control systems is pushing market growth, especially in noise-sensitive processes.

Miniaturization and Portability Development of compact, portable lock-in amplifier modules is making them more accessible for field applications and education sectors.

Expansion in Emerging Markets Growing industrialization and research investments in Asia-Pacific, especially China, are creating new growth avenues for manufacturers.

Lock-in Amplifier Module Market Regional Analysis :

https://semiconductorinsight.com/wp-content/uploads/2025/01/download-34_11zon-1.png

North America:Strong demand driven by EVs, 5G infrastructure, and renewable energy, with the U.S. leading the market.

Europe:Growth fueled by automotive electrification, renewable energy, and strong regulatory support, with Germany as a key player.

Asia-Pacific:Dominates the market due to large-scale manufacturing in China and Japan, with growing demand from EVs, 5G, and semiconductors.

South America:Emerging market, driven by renewable energy and EV adoption, with Brazil leading growth.

Middle East & Africa:Gradual growth, mainly due to investments in renewable energy and EV infrastructure, with Saudi Arabia and UAE as key contributors.

Lock-in Amplifier Module Market Segmentation :

Global Lock-in Amplifier Module market, by Type, 2020-2025, 2026-2032 ($ millions) & (K Units) Global Lock-in Amplifier Module market segment percentages, by Type, 2024 (%)

Single Phase

Dual Phase

Global Lock-in Amplifier Module market, by Application, 2020-2025, 2026-2032 ($ Millions) & (K Units) Global Lock-in Amplifier Module market segment percentages, by Application, 2024 (%)

Laboratory

Medical

Industrial

Others

Competitor Analysis The report also provides analysis of leading market participants including:

Key companies Lock-in Amplifier Module revenues in global market, 2020-2025 (estimated), ($ millions)

Key companies Lock-in Amplifier Module revenues share in global market, 2024 (%)

Key companies Lock-in Amplifier Module sales in global market, 2020-2025 (estimated), (K Units)

Key companies Lock-in Amplifier Module sales share in global market, 2024 (%)

Further, the report presents profiles of competitors in the market, key players include:

FEMTO Messtechnik GmbH

Newport

Zurich Instruments

AMETEK

Stanford Research Systems

TeachSpin

Hinds Instruments

NF Corporation

Liquid Instruments

Anfatec

Scitec

APE-Berlin

Hinds Instruments

Shenzhen Tyson Technology

Drivers

High Demand for Precise Signal Measurement Lock-in amplifier modules excel at extracting weak signals from noisy backgrounds, essential in advanced scientific research and industrial monitoring.

Technological Advancements Continuous improvements in analog multiplier technology and filtering techniques enhance performance, encouraging adoption across various sectors.

Increasing Research & Development Activities Expanding R&D in universities and industries globally is boosting the need for sophisticated measurement tools like lock-in amplifiers.

Restraints

High Cost of Advanced Modules The sophisticated technology involved makes some lock-in amplifier modules expensive, limiting accessibility for smaller labs or companies.

Complexity of Operation Requires skilled operators to correctly configure and interpret results, which can slow adoption in markets with limited technical expertise.

Competition from Alternative Technologies Emerging signal processing methods and digital filters sometimes serve as substitutes, restricting market growth for traditional lock-in amplifiers.

Opportunities

Expansion in Medical Diagnostics Increasing use in medical imaging and diagnostics provides new applications for lock-in amplifiers in detecting faint biological signals.

Customization and Modular Designs Offering tailored solutions and modular amplifier systems can attract diverse industries requiring specific measurement setups.

Growth in Emerging Economies Developing regions with expanding industrial and scientific sectors present untapped markets for lock-in amplifier manufacturers.

Challenges

Maintaining Accuracy in Noisy Environments Despite their purpose, extreme noise conditions still pose challenges to achieving highly precise measurements.

Rapid Technological Changes Keeping up with fast-paced technological advancements requires constant innovation and investment by manufacturers.

Market Fragmentation Presence of multiple players with varied product offerings can confuse buyers and complicate market positioning for companies.

Significant COVID-19 Impact on Grow Light | Semiconductors and Electronics Industry | Data Bridge Market Research

COVID-19 Impact on Grow Light in Semiconductors and Electronics Industry

ANALYSIS ON IMPACT OF COVID-19 ON THE MARKET

The latest epidemic of COVID-19 which continues to devastate societies with high death tolls and untold psychosocial and devastating economic effects is a vivid reminder of nature's ability to threaten contemporary health care. The pandemic calls for rapid mobilization of all potential therapeutic resources including phototherapy, one of the most successful therapies used to minimize the effects of the 1918 "Spanish Influenza" pandemic. The paper cites many studies that indicate that phototherapy has an enormous potential to reduce the effects of coronavirus diseases and proposes ways for the healthcare industry to integrate. Evidence suggests that violet/blue (400–470 nm) light is antimicrobial to various bacteria and is responsible for Niels Ryberg Finsen's Nobel-winning tuberculosis treatment. Further evidence suggests that blue light inactivates variety of viruses including the common flu coronavirus and that red and near infrared light in laboratory animals reduces respiratory disorders similar to the complications associated with virus.

In addition, red light has been shown to minimize chronic obstructive pulmonary disease and bronchial asthma in patients. These results call for immediate measures to further investigate the clinical importance of light and not to wait for another pandemic to act as a reminder. The ubiquity of low-cost light emitting lasers and light emitting diodes (LEDs) makes it reasonably easy to create healthy, low-cost light-based devices with the potential to minimize infections, sanitizing equipment, medical facilities, emergency care vehicles, homes and the general environment.

AFTERMATH OF COVID-19 AND GOVERNMENT INITIATIVE TO BOOST THE MARKET

Lockdowns and stringent travel restrictions around the world to avoid coronavirus spread have also resulted in a trade suspension. As a result, many countries and regions that respond heavily to food imports have suffered from food shortages. Maintaining food security and rising food self-sufficiency are becoming more and more important during and after the COVID-19 crisis. Innovative agricultural technology such as vertical agriculture based on LED lighting and hydroponics has made a breakthrough in limiting weather conditions and is considered one of the strategies to tackle the issue of global food scarcity. LED inside noted that several local governments and businesses have been collaborating to set up cultivation facilities since 2020 to facilitate agricultural transformation. They are also trying to create a module for urban farming and plant processing to supply food in cities. Singapore and the UAE, both of which have imported 90% of food have recently announced that they are investing a significant amount of money to create a domestic vertical farm.

STRATEGIC DECISIONS FOR MANUFACTURERS AFTER COVID-19 TO GAIN COMPETITIVE MARKET SHARE

Apart from being a major source of light for large-scale vertical farming facilities, LED horticulture lighting can also be used for household farming, enabling consumers to grow their own food during the lock-up and enhancing food security. Combining all markets powered by agricultural transformation, it is assumed that the demand for LED horticulture lighting will continue to increase. Despite the rapid transition to LED-based vehicle lighting, global development of motor vehicles has stalled. According to Freedonia researchers, global production of motor vehicles decreased marginally in 2018 and 2019 as compared to a drastic decline in 2020 due to the COVID-19 pandemic. This is the same amount of time that Osram Continental has been involved and has not given a good demand to the business.

There are various UV LED technology companies such as SETi and Seoul Viosys which are developing UV LED products that provide solid coronavirus sterilization in the air and on goods such as phones and face masks. Along with coronavirus, these advanced technologies would have the capacity to sterilize dangerous bacteria such as staphylococcus aureus and Escherichia coli. These advancements are intensifying the competitive environment of UV LED technology and goods. To disinfect larger areas, these companies are deploying robots that use UV light band that can sterilize the coronavirus region. The introduction of robots during the COVID-19 pandemic creates space for more technological developments, thus boosting the grow light market development.

IMPACT ON DEMAND

Apart from being a major source of light for large-scale vertical farming facilities, LED horticulture lighting can also be used for household farming, enabling consumers to grow their own food during the lock-up and enhancing food security. Combining all markets powered by agricultural transformation, it is assumed that the demand for LED horticulture lighting will continue to increase. The introduction of UV LED technology is due to traditional UV LEDs with usually short lifetime (10,000 hours) and high cost. The company said that it has extended the lifetime of its UV LEDs to more than 50,000 hours, comparable to the visible LEDs used for general lighting applications and also expanded production ability to achieve cost competitiveness.

For instance,

·         In May 2020, The Lighting Industry Association (LIA) surveyed that the average capacity of lighting companies is around 45 per cent. Approximately 44 per cent of staff is currently furloughed and only 4 per cent reported that they had made any redundancies as a direct result of coronavirus closure.

IMPACT ON SUPPLY CHAIN

As far as the LED industry is concerned, because the supply chain is mostly based in Asia with the majority of production coming from China, plus a high inventory due to oversupply in the last few years, the coronavirus outbreak has a relatively minor effect on the industry. During China's lockdowns, only the packaging firms suffered a little from lack of manpower. Therefore, there were no changes observed in the supply chain.

CONCLUSION

COVID-19 has had a positive impact on grow light and LED as various influences put bigger pressure on vertical farming measures. In order to meet the increasing demand for UV LED technology, the market players have amplified their production capacities. Due to a plethora of advantages, PMR predicts that UV LED light will continue to increase even after the end of the COVID-19 pandemic. As a result, the company had started using technology to produce fresh food near its point of consumption with only electricity and water supply available.

Global Compact Camera Module Market

Global Compact Camera Module Market, by Component: Global Compact Camera Module Market, by Application: Global Compact Camera Module Market, by Region: Global Compact Camera Module Market, Major Players:

Global Compact Camera Module Market was valued USD XX Bn in 2019 and is expected to reach US$ XX Bn by 2026, at CAGR of 12.3 % during forecast period of 2019 to 2026.

The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision-makers to prepare the outline for short term and long term strategies for companies by region.

The camera module contains of one solid tunable lens for optical power variation, two identical micro electromechanical systems (MEMS)-thermal actuators integrated with displacement amplifiers for lens driving, a complementary metal oxide semiconductor (CMOS) image sensor for recording, and necessary computer numerical control (CNC) fabricated components for supporting and housing. The Global Compact Camera Module Market is driven by the acceptance of high resolution cameras in mobiles and has been increased by the adoption of front-facing cameras, furthermore, increasing resolution in camera requirement for both rear and front-facing mobile cameras. The trend of application like Snap chat, Instagram and various application used for gaming has a great effect on the demand and performance of front-facing camera of mobiles, tabs and cost of camera devices.

This report provides complete analysis of its profit, loss, manufacturers, products, services, drivers and challenges. The Global Photomask Market report highlights the aspects that effect product development and market growth along with technological up gradations that improvement in the Photomask market.

Global Compact Camera Module Market Drivers and Restrains:

Rise in smartphone uses, increased consumers in electronics industry, and rise in need for slimmer, light weight and easy handling smartphones with advanced cameras drive are the growth components of compact camera module market. As billions of smartphones and tablets get sold across the global market, manufacturers of compact camera modules witness a rising demand during forecast period. A multi-physics Finite Element Methods (FEM) modelling is carried out to investigate the output displacement characteristic, the temperature distribution of the actuator, and hence to optimize its performance. Furthermore, as a major parameter, the temperature-versus-electric-resistance relation of the fixed silicon used in this work is characterized and then applied in the simulation modeling process of compact camera.

• Compact Camera Modules with Auto-Focus Lens to Capture Maximum Sales

All hand-held camera contain electronics devices require specific compact camera modules to operate from front-end side or backside. On these specific phenomenon, manufacturers improve compact camera modules with auto-focus lens or fixed-focus lens. In 2018, it has been predictable that the sales of compact camera module with auto-focus lens accounted for an approximately two-third share of the global market value. The report projected up to 2026, compact camera modules developed with an auto-focus lens will outsell the modules with fixed-focus lens.

• Increased Growth in Consumer Electronics Industry

The compact camera modules are working with functionalities like light sensing capabilities and down sampling features that enable the users to take pictures through electronic devices including laptops, smartphones, tablet PCs, and others. Therefore, the significant growth in demand for devices, such as cameras, tablets, and smartphones boosts the growth of the compact camera modules during forecast period.

Manufacturers in the Compact Camera Module are focusing on competitive pricing as the strategy to capture significant market share. Moreover, strategic mergers and acquisitions and technological innovations are also the key focus areas of the manufacturers.

Global Compact Camera Module Market Regional Analysis:

Asia-Pacific dominated the global compact camera module market in 2018, because of the occurrence of a huge number of manufacturers. Supplementary, China generated a large percentage of regional profits. The present Compact Camera Module Market is dominated by Asian players, mainly Japanese and Korean firms. The other regions covered for the research study include North America, Europe, and LAMEA (Latin America, Middle East, and Africa). These report also analyzes applications such as automotive, security & surveillance, and others factors.

The objective of the report is to present comprehensive analysis of global Compact Camera Module market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers the all the aspects of industry with dedicated study of key players that includes market leaders, followers and new entrants by region. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors by region on the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give clear futuristic view of the industry to the decision makers. The report also helps in understanding global Compact Camera Module market dynamics, structure by analyzing the market segments, and project the global Compact Camera Module market size. Clear representation of competitive analysis of key players by Compact Camera Module Type, price, financial position, product portfolio, growth strategies, and regional presence in the global Compact Camera Module market make the report investor’s guide.

For More Information Visit :

https://www.maximizemarketresearch.com/market-report/global-compact-camera-module-market/35726/

Scope of the Global Compact Camera Module Market:

• Lens

• Image sensor

• Voice coil motor

• Assembly components

• Consumer electronics

• Automotive

• Healthcare

• Security & surveillance

• Others

• Asia Pacific

• North America

• Europe

• Latin America

• Middle East Africa

• Chicony electronics co ltds

• Semco

• LG Innotek

• O-Film

• Foxconn Sharp

• Henkel

• Sunny Optical

• Nikon

• Casio

• Pentax

• Polaroid

• Menex

• Liteon

• Cowell

• Q-tech

• Samsang

This Report Is Submitted By : Maximize Market Research Company

Customization of the report:

Maximize Market Research provides free personalized of reports as per your demand. This report can be personalized to meet your requirements. Get in touch with us and our sales team will guarantee provide you to get a report that suits your necessities.

 About Maximize Market Research:

Maximize Market Research provides B2B and B2C research on 20,000 high growth emerging opportunities & technologies as well as threats to the companies across the Healthcare, Pharmaceuticals, Electronics & Communications, Internet of Things, Food and Beverages, Aerospace and Defense and other manufacturing sectors.

Contact info:

Name: Lumawant Godage

Organization Address: MAXIMIZE MARKET RESEARCH PVT. LTD.

Email: [email protected]

Address : Pune, Maharashtra 411051, India.

Contact: +919607195908  

The IoT Stock Boom is Back (SWKS, PI, LEAS, SLAB)

Gartner estimates that the IoT market will grow 21% next year. That would take it to 5.8 billion endpoints during that period. The biggest users: utilities—smart metering—are expected to rise 17% to reach 1.37 billion endpoints. The fastest grower is building automation, including lighting, rising by 42%, and followed by automotive applications (growing by 31%) and healthcare (increasing by 29%). Gartner also notes that it sees 8.4 billion connected things in place already, but by the end of this year, that number will be at over 20 billion. John Chambers, the luminary visionary in charge of Cisco during its heyday, believes that we will see 50 billion connected devices in the next half decade. That would amount to a total of nearly $20 trillion in market size. In fact, by the end of this year, nearly 70% of enterprises will depend on IoT products to some level.  This is the IoT space by the numbers. And it’s likely going to turn out to be a series of underestimations and low-ball forecasts given the rate at which matter is turning into “smart matter” in this world. With that in mind, we take a look at a few interesting IoT stocks that may get increasing attention from the market, including: Skyworks Solutions Inc (NASDAQ:SWKS), IMPINJ Inc (NASDAQ:PI), Strategic Asset Leasing Inc. (OTCMKTS:LEAS), and Silicon Laboratories Inc (NASDAQ:SLAB). Skyworks Solutions Inc (NASDAQ:SWKS) designs, develops, manufactures, and markets proprietary semiconductor products, including intellectual property worldwide. Its product portfolio includes amplifiers, antenna tuners, attenuators, circulators/isolators, DC/DC converters, demodulators, detectors, diodes, directional couplers, diversity receive modules, filters, front-end modules, hybrids, LED drivers, low noise amplifiers, mixers, modulators, optocouplers/optoisolators, phase locked loops, phase shifters, power dividers/combiners, receivers, switches, synthesizers, technical ceramics, voltage controlled oscillators/synthesizers, and voltage regulators, as well as wireless radio integrated circuits.  The company provides its products for use in the aerospace, automotive, broadband, cellular infrastructure, connected home, industrial, medical, military, smartphone, tablet, and wearable markets. It sells its products through direct sales force, electronic component distributors, and independent sales representatives.  Skyworks Solutions Inc (NASDAQ:SWKS) recently announced that that its Milpitas, Calif. facility has achieved AS9100D certification. According to the company, through its defense and space business (formerly known as Isolink), Skyworks is a leading global supplier of high performance, high-quality radiation-tolerant components for aerospace, defense, medical, extreme industrial and high-reliability markets and applications. If you're long this stock, then you're liking how the stock has responded to the announcement. SWKS shares have been moving higher over the past week overall, pushing about 6% to the upside on above average trading volume. Skyworks Solutions Inc (NASDAQ:SWKS) generated sales of $766.1M, according to information released in the company's most recent quarterly financial report. That adds up to a sequential quarter-over-quarter growth rate of -14.5% on the top line. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($1.1B against $362.2M). IMPINJ Inc (NASDAQ:PI) operates a platform that enables wireless connectivity to various everyday items to business and consumer applications. Its integrated platform connects everyday items to applications, delivering real-time information to businesses about items they create, manage, transport, and sell.  Its platform also consists of software offerings that include ItemSense, a system software that comprises enterprise-class RAIN deployment management, software-defined algorithms for transition detection, and APIs that enable application developers to build powerful IoT solutions.  IMPINJ Inc (NASDAQ:PI) just released its financial results for the second quarter ended June 30, 2020, including  "Covid-19 negatively impacted our second-quarter results, and the continuing uncertainty tempers our third-quarter outlook," said Chris Diorio, Impinj co-founder and CEO. "Regardless, we see brightness ahead. Endpoint IC bookings are improving, large systems opportunities are accelerating and, longer term, we see adoption accelerating as leading end users leverage the improved visibility, insights, virtualization and customer experience that RAIN brings to their businesses." The context for this announcement is a bit of a bid, with shares acting well over the past five days, up about 10% in that timeframe. However, we should note that this is a $600M company that basically loses money on small revenues. IMPINJ Inc (NASDAQ:PI) pulled in sales of $26.5M in its last reported quarterly financials, representing top line growth of -30.7%. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($120.9M against $24.4M). Strategic Asset Leasing Inc. (OTCMKTS:LEAS) is focused on leveraging technology assets with an initial focus on the Fintech Industry and the Internet of Things (IOT). The "Internet of Things", simply put, are devices and objects that also have an online connection such as personal voice assistants, smart home systems, video doorbells etc.  These are rapidly growing sectors and LEAS will be developing and licensing technologies that will help companies penetrate these markets, thereby increasing shareholder value. Strategic Asset Leasing Inc. (OTCMKTS:LEAS) is headed by Jason Tucker, the company’s new CEO, who has 15 years of experience in Business Development, Project Management, Account Management, and Sales Engineering. He has extensive knowledge of logistics and core leadership skills, through many clinics and many years of working in the industry sector. The company recently announced that it has signed a development agreement with Product Design Experts, Inc. (PDE) to begin development of an Internet of things (IOT) product in the consumer security and safety market. According to the release, to help further deploy technology assets the Company has recruited Vincent Risalvato, CEO of PENNEXX Foods Inc. (OTC PINK:PNNX), to act as a technical advisor to the Company. The parties are also in talks to advance an opportunity in the future to partner PNNX with LEAS to connect IOT products with PNNX's merchants and users furthering the YourSocialOffers.com rewarding experience. Part of the Company's strategy is to develop tool kits that are pre-build designs that small companies can use to create products quickly and efficiently that interface with the Internet, dashboards, portals as well as existing devices like Amazon Alexa, Siri and Google home assistant devices. This strategy is based on the direction the industry has been heading. LEAS recently showed off what it can do, ramping from 0.0017 to 0.0070 (+312%) in just 5 days. The main pattern to note is the bullish ascending triangle pattern that has now broken out and suggests further strength ahead based on our research and experience. Strategic Asset Leasing Inc. (OTCMKTS:LEAS) is pre-revenue at this point, but clearly ramping toward some commercial “threshold” breakthroughs given its recent deal-making progress. Keep this one on the radar and check back often. Silicon Laboratories Inc (NASDAQ:SLAB) provides mixed-signal integrated circuits (ICs) in the United States, China, and internationally.  The company offers Internet of Things products, including 8-bit mixed-signal and ultra-low-power 32-bit microcontrollers (MCU); wireless MCU connectivity solutions; single and multi-protocol system-on-chip (SoC) devices and modules; wireless protocols, MCUs, and SoCs; in-house protocol stacks; Micrium, a real-time operating system that helps simplify software development for IoT developers; and sensor products comprising optical, relative humidity/temperature, and hall effect magnetic sensors. It also provides infrastructure products, such as timing devices; multi-channel isolators, isolated drivers, isolated power converters, and mixed-signal devices; broadcast products, which include single-chip hybrid TV tuners and digital video demodulators, as well as AM/FM, HD radio, and DAB/DAB+ receivers; and hybrid software defined radio tuners, data receivers, and digital radio coprocessors.  Silicon Laboratories Inc (NASDAQ:SLAB) reported financial results for its second quarter ended July 4, 2020. Revenue was near the top end of the guidance range at $207.5 million, down from $214.9 million in the first quarter. Second quarter GAAP and non-GAAP diluted earnings (loss) per share (EPS) were $(0.04) and $0.74, respectively. "Second quarter revenue was at the high end of our guidance range at $207.5 million," said Tyson Tuttle, CEO of Silicon Labs. "Clearly, the global pandemic has and will continue to impact the way people live, work and play. We are well-positioned to execute our strategy in IoT connectivity and internet infrastructure in light of recent trends in the market, which we see accelerating as the world moves even faster to becoming more connected." The context for this announcement is a bit of a bid, with shares acting well over the past five days, up about 3% in that timeframe. SLAB shares have been relatively flat over the past month of action, with very little net movement during that period.  Silicon Laboratories Inc (NASDAQ:SLAB) generated sales of $207.5M, according to information released in the company's most recent quarterly financial report. That adds up to a sequential quarter-over-quarter growth rate of -3.4% on the top line. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($723.3M against $135M). Read the full article

Ultrafast Laser Market Sees Promising Growth during 2018-2027

Market Overview:

Ultrafast lasers have been used for decades in industries for manufacturing powerful, clear-cut processing of all kinds of materials with high accuracy with very less initiative to innovate; which is lost in this marketplace. Ultrafast lasers are ultra-short pulse of light with an electromagnetic pulse whose time duration is of the order of a picosecond or less. Ultrafast lasers are commonly referred to as ultrafast events with an amplification of ultra-short pulses which always requires the technique of high pulse amplification, in order to avoid damage to the gain medium of the amplifier. In research & development department, advances in materials and laser configurations promise to open up a variety of new applications outside of the technology’s core area of industrial micromachining. Global Ultrafast LaserMarket is expected to grow in the forecasted period, in 2017 market size of the Ultrafast Laserwas XX million and in 2027 is expected to reach at XX million with growing CAGR of XX%.

Get Access to sample pages @ https://www.trendsmarketresearch.com/report/sample/3317

Market Dynamics:

The automotive industry has been a driving force behind the innovations in high-powered laser applications for past two decades. Ultrafast lasers have potential to satisfy many requirements in the automotive industry, including quality, product miniaturization, high precision, smaller lots, and applicability to diverse materials, and cost-effectiveness. Automakers all around the world are under immense pressure to meet the targets, and strict rules imposed by the government, to increase the mileage and reduce the CO2emissions. Automobile manufacturers are turning towards technological innovations in lasers as one of the solutions, to squeeze more mileage out of existing fossil fuel engine designs.

Key Players:

The Ultrafast Laser market consists global and regional players includingAmplitude Systemes, Coherent Inc., Ekspla, Fianium Ltd, Jds Uniphase Corp., and Laser Quantum Ltd., among others.

Market Segmentation:

Ultrafast Laser market is segmented based on application, type, pulse durationand geography.Based on the type, the market is segmented into diode-pumped lasers, titanium-sapphire lasers, fiber lasers, and mode-locked diode lasers. Based on the pulse duration, the market is segmented into femtosecond and picosecond. Whereas, based on the application, the market is segmented into biomedical, materials processing, spectroscopy & imaging, science & research, and others. Ultrafast Laser Module by region segmented into North America, Europe, Latin America, Asia-Pacific and Middle East & Africa. In 2017, Europe currently has a strong position in the global lasers industry, which is based on its historic leading position in the industry, and its continuing strong industrial and research base. Most of the world’s major laser companies have their headquarters in Europe.

Market segmented on the basis of type: - Diode-Pumped Lasers - Titanium-Sapphire Lasers - Fiber Lasers, - Mode-Locked Diode Lasers

Market segmented on the basis of application: - Biomedical - Materials Processing - Spectroscopy & Imaging - Science & Research - Other

Market segmented on the basis of pulse duration: - Femtosecond - Picosecond

Market segmented based on region:

- North America • US • Canada • Mexico - Europe • UK • Germany • France • Rest of Europe - Asia-Pacific • China • Japan • India • Australia • Rest of Asia-Pacific - Latin America • Brazil • Rest of Latin America - Middle East and Africa (MEA) • South Africa • Saudi Arabia • Rest of MEA

Covid 19 Impact Analysis@ https://www.trendsmarketresearch.com/report/covid-19-analysis/3317

RADAR SENSOR Market Strategic Insights and key Business Influencing Factors | Major Players – Continental AG; DENSO CORPORATION.; HELLA GmbH & Co. KGaA; Infineon Technologies AG; Autoliv Inc.

RADAR SENSOR Market is an electronic device which is specially designed to detect the position and velocity of an object which is at distance level. They are widely used to detect vehicle speed or any object approaching within the specified range as modern radar detectors use modulated frequency waves that detect multiple targets at a time. They have the sensing range upto 40 meters and are also widely used for collision avoidance in port machines, mining vehicles, and forklifts because they can detect any object that falls within the detection cones. They are widely used in application such as environment & weather monitoring, automotive, industrial, security, and aerospace & defence

 Global radar sensor market is set to witness a healthy CAGR of 19.51% in the forecast period of 2019- 2026. The report contains data of the base year 2018 and historic year 2017. Rising military spending and increasing acceptance of advanced driver assistance systems and driverless concepts in the automotive sector are the factor for the market growth.

 Get Sample Report at :

https://www.databridgemarketresearch.com/request-a-sample/?dbmr=global-radar-sensor-market

Competitive Analysis: Global   RADAR SENSOR   Market

Few of the major competitors currently working in the global radar sensor market are Robert Bosch GmbH.; Continental AG; DENSO CORPORATION.; HELLA GmbH & Co. KGaA; Infineon Technologies AG; Autoliv Inc.; Lockheed Martin Corporation; NXP Semiconductors.; smart microwave sensors GmbH; Oculii Corp; SRC, Inc.; Arbe; Echodyne; Raytheon Company.; Saab AB; Northrop Grumman Corporation; ZF Friedrichshafen AG; Hitachi, Ltd.; InnoSenT - Innovative Radar Sensor Technology; Kestrel Radar Sensors; among others.

 Key Pointers Covered in the Global   RADAR SENSOR Market Trends and Forecast to 2026

Global   RADAR SENSOR Market New Sales Volumes

Global   RADAR SENSOR Market Replacement Sales Volumes

Global   RADAR SENSOR Market Installed Base

Global   RADAR SENSOR Market By Brands

Global   RADAR SENSOR Market Size

Global   RADAR SENSOR Market Procedure Volumes

Global   RADAR SENSOR Market Product Price Analysis

Global   RADAR SENSOR Market Healthcare Outcomes

Global   RADAR SENSOR Market Cost of Care Analysis

Global   RADAR SENSOR Market Regulatory Framework and Changes

Global   RADAR SENSOR Market Prices and Reimbursement Analysis

Global   RADAR SENSOR Market Shares in Different Regions

Recent Developments for Global   RADAR SENSOR Market Competitors

Global   RADAR SENSOR Market Upcoming Applications

Global   RADAR SENSOR Market Innovators Study

Get Detailed TOC:

https://www.databridgemarketresearch.com/toc/?dbmr=global-radar-sensor-market

 Market Analysis and Insights: Global RADAR SENSOR Market

Radar Sensor market is expected to grow at a growth rate of 3.1% in the forecast period 2020 to 2027. Increasing number of pets and rising health related concern among pet owner is the factor responsible for the growth of the Radar Sensor market in the forecast period of 2020 to 2027. 

Treat items are a type of pet foods that are not usually meant to provide balanced and healthy nutrition, but are specifically designed to reward animals.

Increasing demand for dental treats and chews will affect the growth of the Radar Sensor market. Rising popularity of product with simple and few ingredients is also expected to enhance the market growth. Increasing weight related and age related concern among pet owners is also expected to drive the market growth. Increasing availability of more innovative product in the market will also affect the growth of the Radar Sensor market. High and easy availability Radar Sensor will also enhance the market growth.

This Radar Sensor market report provides details of new recent developments, trade regulations, import export analysis, production analysis, value chain optimization, market share, impact of domestic and localised market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market.

Scope of the   RADAR SENSOR   Market

Global Radar Sensor Market By Type (Imaging Radar, Non- Imaging Radar), Band (HF, VHF, and HUF Bands; L, S, C, and X Bands; Ku, K, Ka, V, and W Bands), Range (Short-Range Radar Sensor, Medium-Range Radar Sensor, Long-Range Radar Sensor), Component (Transmitter, Receiver, Processor, Antenna, Video Amplifier), Technology (Time Domain Reflectometry, Ultra-Wideband, RF MEMS-based Radar Sensors, Millimeter Wave), Application (Automotive, Aerospace & Defense, Industrial, Security & Surveillance, Traffic Monitoring and Management, Environmental & Weather Monitoring, Other Applications), Vertical (Commercial, Government, Industrial), Geography (North America, Europe, Asia-Pacific, South America, Middle East and Africa) – Industry Trends and Forecast to 2026

Global radar sensor market is set to witness a healthy CAGR of 19.51% in the forecast period of 2019- 2026. The report contains data of the base year 2018 and historic year 2017. Rising military spending and increasing acceptance of advanced driver assistance systems and driverless concepts in the automotive sector are the factor for the market growth.

Speak to Author :

https://www.databridgemarketresearch.com/speak-to-analyst/?dbmr=global-radar-sensor-market

Key insights in the report:

Complete and distinct analysis of the market drivers and restraints

Key Market players involved in this industry

Detailed analysis of the Market Segmentation

Competitive analysis of the key players involved

About Us:

Data Bridge Market Research set forth itself as an unconventional and neoteric Market research and consulting firm with unparalleled level of resilience and integrated approaches. We are determined to unearth the best market opportunities and foster efficient information for your business to thrive in the market.

Contact:

Data Bridge Market Research

Tel: +1-888-387-2818

Email: [email protected]

Browse Related Report Here:

Deadbolt Smart Lock Market

Digital Light Processing Technology Market

Rapid Electrification of Automobiles Driving the Gate Driver IC Industry

The growing prevalence of digital electronic devices, adoption of progressive electronic vehicles and advanced virtual systems have paved the way for huge growth opportunities for the Gate Driver IC technology. New products are being implemented by emerging industry players and smaller semiconductor companies are being acquired to strengthen their market presence and deliver power modules of the next generation.

What is the Gate Driver IC Technology?

Gate Drivers accept low-power input from an IC (Integrated Circuit) controller and generate high-current drive input for a high-power transistor gate such as IGBT or Power MOSFET. Integrated Circuit is a semiconductor wafer which is fabricated with thousands of tiny resistors, capacitors, and transistors.

An IC has a wide variety of features, including amplifiers, oscillators, timers, computer memory, and microprocessors. A gate driver IC acts as an interface between power switches and control signals. Power switches include IGBTs, MOSFETs, SiC MOSFETs, and GaN HEMTs. These solutions help to reduce the complexities of design, time for development, materials bill and board space. In addition, technology is intended to improve reliability.

What do we need Gate Driver IC?

Gate driver ICs are suitable for a variety of applications including major home appliances, industrial motor drives, solar inverters, UPS, switched-mode power supplies, high-voltage lightning, etc. In addition, the use of power transistors in different renewable energy systems has accelerated the acceptance among major manufacturers of gate driver ICs. Increased use of gate drivers for silicon carbide and gallium nitrite gate drivers implies advanced protection against short-circuiting.

A system needs a switch in most applications to be able to work properly. Since there are no ideal switches, the component has been selected for this task almost all the time is a MOSFET. Typically, a MOSFET needs a gate driver at the preferred frequency to do the on/off operation. MOSFETs include a gate drive circuit for translating the on/off signals from an analog or digital controller into the power signals needed to control the MOSFET.

Increasing urban development, climate change, and demographic changes are encouraging cities to develop their infrastructure to ensure seamless integration of renewable energies and stable grids while maintaining quality of life for urban residents as well. In addition, electronic systems are made compatible with technology upgrades due to improved technology optimization. Home appliances and other electronic systems are designed to interact with consumers via the internet, especially in-house security infrastructures such as automated door locks, smart plugs, and lightning. Therefore, adopting smart home and smart grid technology drives gate driver ICs sales.

MOSFET Gate Drivers

MOSFET driver ICs are implemented in power supply and motor driver applications to drive external MOSFETs. Typically architected in a bridge configuration, MOSFET drivers deliver the timing needed to ensure that only one MOSFET is operated at a time. For multiple applications, MOSFET drivers are used, including motor drivers and load switching to power supplies.

Click Here For Free Insights: https://www.kbvresearch.com/news/gate-driver-ic-market/

For increased efficiency in isolated designs, single and dual drivers with secondary-side synchronous drivers exist across the market space. Assessment kits are available for rapid prototyping and design verification. A system needs a switch in most applications to be able to function properly. Since there are no ideal switches, mostly a MOSFET is the component selected for this task. Generally, a MOSFET needs a gate driver to perform the on/off operation at the desired frequency.

A MOSFET is an acronym for the metal-oxide semiconductor's field-effect transistor. It is a field-effect transistor (FET), the main component in high-frequency, high-efficiency switching applications throughout the electronics industry. A MOSFET is a device controlled with four terminals namely a gate, a drain, a source, and a bulk.

IGBT Gate Drivers

An insulated gate bipolar transistor (IGBT) is a three-terminal power semiconductor device that is widely used as an electronic switch that combines high efficiency with rapid switching as it has been developed. It consists of four alternating layers (P-N-P-N) controlled by a metal-oxide-semiconductor (MOS) gate structure without regenerative action. The IGBT combines the simple gate-drive features of MOSFET with bipolar transistor high-current and low-saturation-voltage capabilities.

The IGBT incorporates as a switch in a single device an isolated FET gate for the control input and a bipolar power transistor. The IGBT is used in medium to high-power applications such as power supplies switched-mode, traction motor control, and induction heating. Large modules usually consist of many parallel devices and can have very high current handling functionality in the order of hundreds of amperes with 6500 V blocking voltages. These IGBTs are capable of controlling loads of hundreds of kilowatts.

What’s obstructing the implementation of Gate Driver IC?

Design complexity is one of the main reasons that slow down Gate Driver ICs' proliferation. In microprocessors, there are many transistors that should be highly reliable and have long lines of copper. The IC port driver design chain is much more complex than other processors. Various complexities, such as slimmer IC versions, cabinet usage, and others, impede the efficiency of gate drivers. Vigilant attention, precision, and skilled workforce are needed to create an appropriate gate driver, acting as a key obstacle to this industry's development.

Ongoing trends and future expectations:

Growing global concerns about climate change's negative effects along with alarming levels of pollution recorded in major cities have generated significant demand for electric vehicles. Due to higher petrol and diesel prices, demand for fuel-efficient vehicles has recently increased. Gate driver ICs play an important role in providing optimal solutions across a wide range of electric vehicle applications such as on-board chargers, grid-supporting energy storage, and high-power chargers.

Moreover, it is expected that the electric vehicle industry will record a substantial growth equivalent to the increase in its charging infrastructure. Therefore, the rise in electric vehicle adoption globally is expected to have a positive impact on the sales of gate driver ICs, which facilitates the efficient and high-power density supply of the vehicle. The Global Gate Driver IC Market is also expected to grow at a CAGR of 8% over the forecast period.

dForce Yang Mindao: DeFi value capture should be deeply cultivated from the dimensions of assets and functions

Yang Mindao, the founder of dForce, introduced dForce's agreement matrix in detail from the perspective of product line and strategic planning, and shared his views on DeFi value capture. Original Title: "The Troika of the Road to the Ultimate goal of dForce (Live Review)" Written by: dForce

This live broadcast could be the first detail by detail analysis of the merchandise line and strategic planning by dForce founder Mindao. The outline is really as follows

* Reflection and DeFi risk get a grip on module design * Agreement matrix and strategic planning * Rethinking the protocol dismantling and reviewing the style of the DeFi risk get a grip on module. In accordance with Lendf. Me's data before the hacking incident, dForce reached the fifth devote the global DeFi lock-up ranking in only a couple of months.

Whether it is dForce's rapid growth, strategic perspective, or risk thinking about accidents, we hope to share with you these as a reference for the industry. In the decentralized lending market, dForce has always maintained a flexible and rapid strategy to access potential new assets, and it has become the most comprehensive and flexible stable currency lending platform quickly. The amount of legal currency stable currency borrowing can also be the very first of all lending platforms. But dForce's innovation and development speed also come with risks. The hacking incident on April 19th brought us in-depth thinking. For detail by detail review, you can view dForce AMA to revive the Lendf. Me hacking incident. The next is dForce's summary of our ideas on the chance get a grip on module

* Review process for accepting new assets * Fund pool mode, single loan limit debt limit (similar to MakerDAO debt ceiling) * Mixed mode, the collateral of the single pool mode just isn't connected, solving the issue of borrower risk imbalance. * Centralized early warning monitoring and agreement termination * Asset and process on-chain protocol matrix and strategic planning Out of this year's viewpoint, the boundary between DeFi and CeFi has gradually blurred. The three major exchanges have committed to their particular public chains and stable currency construction. What do we consider DeFi? DeFi is actually a shop front and back factory model (wallets or exchanges are shops and DeFi is really a factory). As time goes on, more value will start to accumulate on DeFi. In the event that you make a classification of the DeFi field, one is really a functional agreement and one other is an asset-based agreement. dForce is targeted at the lowest level protocol, but as the market is quite early, we shall take to our better to have a step of progress to capture users at the application form layer. A usually asked question, how can DeFi do value capture? I know think this way. I begin to see the figure below. The vertical is an asset-type agreement, and the horizontal is really a functional agreement. Value capture must be deeply cultivated in two dimensions. Probably the most stable one among foreign DeFi players is MakerDAO. This is because MakerDAO not just gets the loan function, but additionally the asset DAI. When the asset DAI is built-in by other protocols, the network will have a massive effect. This network effect is much larger compared to functional agreement. The functional agreement is relatively in the moat. The weak will face competition in fees and liquidity.

Furthermore, the asset class could be the most critical. Taking the next figure as an example, we could note that we put the asset class at the pinnacle of the carriage.

It can also be confirmed in reality that after so many turbulences like MakerDAO, it really is still standing as a result of DAI's asset agreement. Let's speak about the value capture part. The above mentioned three agreements really are a gear relationship. The combinable relationship between you and me could be the secret, but at the same time additionally it is amplifying risks. But you can not quit food as a result of choking. If there is no composability, DeFi's own characteristics and advantages are difficult to play. Dismantling the agreement Back once again to dForce's agreement matrix as an example, all our strategic thinking is quite highly relevant to capturing value. The next will observe the order of Mindao's speeches, and add three major categories behind each agreement that will help you develop a framework. USDx (Asset Type Agreement) The first ever to do USDx would be to hope that the value of future functional agreements may be deposited in the asset class, and at the same time, the asset type agreement may also provide functional agreements with really low capital. Why not launch the stable currency USDx alone? It is extremely difficult to push a reliable coin hard. It may be seen that even the stablecoins with the background of the three major exchanges are difficult to break the monopoly pattern of USDT in a single fell swoop. From the verification of the access party and address data, it could be seen that even if it really is as strong as the exchange, pushing your own stablecoin will never be effective. It is difficult to shake the career of USDT. Many people do not understand how complicated a currency is. It is extremely difficult to reach the existing status after the brutal growth of USDT, or the network effect established with a first-mover advantage such as for example DAI. Even though DAI's daily liquidity is less than US$500, 000, it still exists. For a brand new currency to have interest, it needs a lending market, and application scenarios must have counterparties. These dependencies are extremely strong. The troika depends on each other. What's the trading strategy market (asset agreement)? We make a permutation and combination of dForce's resources with income function as time goes on. From low risk to high-risk, you will see USR, stable currency asset deposits, quantitative product Token, and so forth dForce Swap (Transaction Agreement) This season dForce will spend plenty of effort on the transaction agreement side. You are able to experience the services and products of dForce Swap. The picture below shows the well-known aggregation trading protocol 1inch accessing dForce Swap dForce Swap's quotes on most stable currency pairs would be the most readily useful quotes dForce Swap will undoubtedly be version - 0 of dForce transactions (we support most stable coins), and ERC BTC transactions will undoubtedly be added later, and in the next version 2. 0 of dForce transactions, it will be expanded to multi-asset class transactions. Supplement: The difference between dForce Swap and Curvefi is that Curvefi is an automatic market maker model and can adjust the purchase price in line with the algorithm, but in many cases it is actually much less good as dForce Swap. dForce Swap uses external professional market makers. Connected to the liquidity of centralized exchanges or decentralized exchanges, underneath the precipitation of low funds, the exchange price of dForce Swap is not only favorable but additionally allows the use rate of funds to be high. After dForce's loan agreement is reopened, our dForce Swap will have a synergistic relationship with the loan agreement to boost capital efficiency. Our personal professional market maker resources and traditional financial market background really are a great advantage for dForce to enter the trading field. USR (Asset Protocol) USR is really a mechanism just like MakerDAO DSR. For related text, please make reference to this dForce improvement plan (DIP001): governance voting results. USR is really a area of the USDx stable currency Supply in to the lending market. These stable The interest generated by the currency is then distributed back to USDx holders or used to repurchase dForce Token. The contribution of USR to the dForce ecosystem would be to give USDx systematic interest. USDx interest arises from its stable currency component currency to generate interest, and doesn't have to be generated by borrowing demand. The scalable USR system interest also includes transaction fees. The transaction fee model resembles the fee model on imBTC's Tokenlon. As time goes on, USR will also share the transaction fees of USDx in the dForce ecosystem. PS: USR system interest = USDx component currency deposit interest + dForce related agreement transaction fee Yield Protocol (interest-bearing and lending protocol) Following the launch of the Yield Protocol, any asset that you own may be deposited in to the dForce contract to be an interest-bearing Token. This is the Yield Protocol. Many people may instantly consider Compound's cToken. From the perspective, both have similarities. The difference involving the two is: cToken only exists in Compound's own protocol, and Yield Protocol is really a more open and abstract architecture. Yield Protocol will store area of the currency in the DeFi protocol, including Compund, dydx, dForce Lending, and so forth, and one other part will enter dForce PPP( Public Private Pool). The launch of PPP is dForce's thinking after that great hacking incident. All borrowing and liquidation activities are on the chain, and each borrower may have a unique lending pool, but the borrower requires a whitelist. For example , I will be a borrower and I deposit ETH in Lendf. Me as collateral to borrow. I don't desire to expose my collateral to smart contract risks. In the past DeFi agreement, all collaterals Deposits are stored together, but in PPP borrowers may have independent borrowing pools. PPP gives borrowers more choices. It may be understood as private or customized, and the collateral will undoubtedly be safely stored in independent borrowing pools. There is no need to concern yourself with being borrowed by others. This is actually a risk get a grip on on the loanable assets. This is the key to the style of Yield Protocol. While obtaining competitive funds, the PPP pool will not infinitely amplify risks. Concerning the future scalability of the PPP model, PPP can open a lending pool for CeFi, a lending pool for staking assets, or continue to mortgage the lending pool of the stable currency Yield Protocol (which is a derivative product). Additionally , PPP can more flexibly customize different categories of borrowers and different borrowing conditions. To put it simply, Yield Protocol+PPP is an innovation of an open + hybrid model. As time goes on, dForce Lending 2. 0 (a completely open model), Yield Protocol will undoubtedly be compatible later. From the perspective of time progress, Yield Protocol will enter the code audit process in greater than a month. Summary dForce's huge agreement matrix layout, we have been building a cutting-edge attempt, no-one can guarantee absolute security, this really is an innovation dilemma, and we'll do everything we could to have various risk get a grip on techniques to make the agreement better, financial It's a marathon. Concerning the DF token distribution plan, you can view this DF airdrop plan-DeFi Community Co-construction Award. The next distribution and circulation plan will undoubtedly be announced later. Community friends are extremely concerned about this. The next circulation plan will undoubtedly be announced in the next two weeks. The next AMA of dForce will involve the DF economic model. dForce will be a world-first DeFi team. We are not just following foreign thinking, but additionally having our very own original a few ideas. China has reached a worldwide leader in exchanges and mining pools, although not in neuro-scientific public chains and DeFi. Among them, the Chinese team even offers huge advantages and opportunities. The next could be the media and community Q&A Question 1: Along with publicizing the merchandise roadmap, any kind of current marketing plans that deserve to be disclosed? Will the prior attacks affect the reputation of dForce in overseas communities? Will it advance as time goes on? Which are the plans? (Blockchain News) dForce's marketing will observe the merchandise route. Due to the massive amount this hacking incident in the western community, many overseas community developers and investors begun to pay attention to us. From the perspective of security, many CeFi have now been hacked, so when DeFi we cannot hide it. We don't believe we must over-magnify the hacking incident. There isn't much negative affect dForce. We will use data and services and products to prove it. As time goes on, dForce will focus more on the Chinese market. We will perhaps not be embarrassed in services and products and agreements. Why China? Yesterday, in the Binance 101 live broadcast, Buffett mentioned that his birth in the usa is equivalent to winning a womb lottery (2% probability). Entrepreneurs doing DeFi in China can be like Buffett winning the lottery in China. If you are the very first in China, you need to be the best in the world. Question 2: You think that a lot of of the new services and products in the DeFi community are breakthrough innovations or incremental innovations? What category does dForce's new product belong to? (Blockchain News) Many foreign DeFi project innovations are mostly embroidered. In traditional finance, every business line must be verified a lot, and every attempt has an opportunity cost. For dForce, strategically, we have been a breakthrough innovation (as a mutual linkage of the agreement matrix), and tactically we have been a pragmatic and gradual innovation. We will look at which agreements have now been verified. This involves a lot Innovation? No need. Now I choose to do dForce Swap because stablecoin trading is indeed in demand on the market. Question 3: What's the core strategy of dForce matrix layout? Which services and products are there? What would you like to achieve? (Blockchain News) The protocol matrix of the dForce Troika is aggregation, which can be also mentioned in the aforementioned live broadcast. Western entrepreneurs haven't seen how Chinese entrepreneurs compete, and the Chinese team must give full play to their advantages. Question 4: After that great hacking incident, what corresponding measures will undoubtedly be taken on security issues? (Blockchain News) Regarding security, we shall make different arrangements on different agreements to cut the risks that can be isolated. This is noticed in the first risk reflection on the live broadcast. Question 5: In DeFi, how could be the boundary between centralization and decentralization defined? For example , this time around there is a viewpoint that the dForce team doesn't have to retrieve funds in a centralized way, which can be inconsistent with the idea of ​​decentralization. However in fact, centralization and decentralization ought to be coupled with each other. Just how can this degree become more appropriate? (Block rhythm) I know would rather utilize the term Open Finance. Everybody takes D too seriously and too ideologically. For example , USDT is quite grassroots and it has grown through decentralization, but the USDT coin minting process gets the characteristics of centralization. You think it belongs to DeFi? Do not engage in decentralized governance prematurely for a project. Stress that decentralized governance will consume too many unnecessary resources before getting a market position. For example , MakerDAO requires 1-2 individuals to do this full-time for every meeting and coordination. It might be feasible for a project as mature as MakerDAO, however it is a superb burden for some teams that do not have a verifiable product in the early stage. On the other hand, in the hacking incident, somebody mentioned that hackers can ignore it as a DeFi protocol after stealing, so that the thinking of completely dumping the pot is unreliable. Although decentralization theoretically will not bear legal responsibility, it really is for a responsible person In terms of the team can be involved, it really is to accomplish everything possible to retrieve the assets. It seems to Chinese users that if something goes wrong, the blame cannot be caused by the agreement. It's a question of attitude whether to get it back and whether to spare no effort to get it. Holding the pot thinking just isn't some sort of user thinking. Many ideologies will undoubtedly be gradually expunged by the market. As time goes on, it should be a hybrid model. The dForce PPP model is really a combined exploration. Question six: In fact , after dForce came ultimately back the user's assets, the cryptocurrency experienced a little climax. Ethereum and Bitcoin have both increased by 10-20%. If everything is normal, actually this era ought to be because of the escalation in the quantity of Defi locked positions This really is also the opportunity cost of dForce for a period. So actually even if most of the assets are retrieved, dForce still features a lot of losses. What plans does the team follow to cover the losses during this period? Now it has temporarily fallen out from the No . six position in DeFi lock-up volume. Have you got any plans to re-enter the most effective ten? (Block rhythm) Defipulse's lock-up volume just isn't a good criterion for DeFi projects. For example , for DEX, it pays no focus on the lock-up volume. For dForce, we not just desire to rank, we make the agreement to establish network effects. Question 7: In dForce's asset protocol, there is an interest-earning protocol (Yield Protocol). Is it possible to explain how this protocol helps users "hold money and earn interest"? What's the principle and logic behind it? (Planet) The practice of Idle finance is where the interest is high and where will the tokens be allocated? Yield Protocol, dForce's interest-bearing protocol, is more concerned with security issues. It will give priority to mature protocols, such as for example Compound, and allocate part of it to PPP Pool, to ensure that Yield Protocol's interest will never be worse than other aggregation protocols. Question 8: So how exactly does the hybrid lending market in the dForce lending agreement work? Does it signify dForce will support multiple hybrid tokens and other assets like Synthetix as time goes on? (Planet) The largest difference between dForce and Synthetix is ​​that Synthetix is one of the category of derivative assets. There's a difference between actual assets and derivative assets. Derivative assets have plenty of friction, and there is never a deterministic price anchoring mechanism. Kinds of self-system derived asset systems are difficult to get out of these own system. Question 9: Let's say the hacker steals the funds and will not recover it? Following the accident, dForce prepared a wartime office to cope with it. Within 2 hours, we contacted all the centralized asset parties to resolve the incident, and we made a report to the Singapore Police. The entire process team was relatively calm. For me, both days were It was a bit ignorant, the complete process was just like a thrilling roller coaster. Let's say the funds aren't recovered? We now consider DF circulation as important. Why? At that time, MakerDAO lost huge amount of money on 3/12. Fortuitously, MakerDAO features a circulating market value. The shortfall was made up by issuing MKR. MakerDAO can fully capitalize and commence again, but for many teams, it could hang. Consequently , circulating tokens are of strategic significance to the DeFi team. Question 10: DeFi protocol matrix. What's the similarity between this idea and the merchandise matrix of Chinese Internet giant Ali Tencent Toutiao, and do you know the differences? The part of diversion from each other is comparable, but the Internet giant is really a closed matrix. You can not use WeChat to divert Douyin. DeFi is different. Each protocol is interoperable. In the early stage, it seems that they are competing together but are essentially available to each other. For example , when USDx is aggregated by the transaction aggregator, the liquidity of USDx is opened. Originally, there were no trading pairs with other currencies, however now you will find trading pairs. Why can Bitcoin and Ethereum rise so much for a while? And Facebook just isn't so fast. It is because the network effect in the blockchain is different from the traditional network effect. Digital currency features a stronger network effect. Question 11: Why choose dForce Swap as the first product? Does dForce have a trading background in the past? The dForce team features a relatively deep trading background. Before dForce, I also founded Blockpower (asset management) and Hashingbot (encrypted asset quantification). The partner of my transaction was also from Goldman Sachs. It is burdensome for the domestic DeFi team to locate a team with first-hand experience in the financial field. Question 12: What's the look for the V2 version of lending mentioned by dForce? What's the improvement on the existing loan agreement? dForce Lenging v2 will have a debt asset limit, the mortgage rate of each and every asset is different, the review process of each asset access, and we'll also add centralized services to monitor related risk signals. Question 13: In the best terms, describe the long run ecology of dForce to retail investors? How to comprehend the closed loop of the protocol matrix? As stated above, dForce must be an open protocol, in which there's a small closed loop in the protocol matrix. The logic of Multicoin investment describes dForce as a brilliant Dapp. The dForce protocol may be open enough to connect to different external protocols is an outer loop, and the protocol The tiny closed loop in the matrix is ​​the inner loop.

Radio Frequency (RF) Components Market Size, Share & Trends Analysis Report By Product (Power Amplifier, Filters, Duplexer), By Application (Consumer Electronics, Military, Automotive), And Segment Forecasts, 2019 - 2025

Industry Insights

The global radio frequency components market size was valued at USD 18.06 billion in 2018 and is expected to ascend at a CAGR of 14% from 2019 to 2025. Continuous innovations and advancements in mobile handset technology owing to continuing transition from 2G, 3G to 4G/LTE, LTE-Advanced, LTE-Advanced Pro, and 5G leads to the rising need for maximizing power efficiency and spectrum range of the mobile devices. This, in turn, is expected to spur the demand for RF components in the forecast period.

IoT solutions require enhanced wireless connectivity, thereby driving the need for new and advanced RF components. Moreover, increasing sales of smartphones owing to constant product development offering improved performance, biosensors, long battery life, and more AI features and increasing popularity of low-end smartphones in emerging countries will boost the RF components market. Thus, the requirement of low-power ICs for maximizing battery life and to reduce charging time in smartphones is expected to spur the demand for RF components. Increasing adoption of IoT across industrial, residential, and consumer applications is expected to impel the product demand.

To learn more about this report @  https://www.grandviewresearch.com/industry-analysis/radio-frequency-rf-components-market

Furthermore, a number of applications and products, such as home robots, smart wearables, self-driving cars, and smart manufacturing solutions and tools, are being integrated with IoT-related technologies, leading to an increased scope of usage for the product. However, the requirement of features, such as longer battery life, low-power wireless connections, and diversified sensors, in these products and applications are pushing RF component manufacturers and solution designers to focus more technological developments in their deliverables. Owing to the aforementioned factors, the market is anticipated to attain a significant growth in the years to come.

Technological advancements in the fields of cellular mobile and wireless communication, including the development and deployment of 5G networks, are driven by the increasing demand for broadband services and faster speeds for mobile internet connectivity. Moreover, like most new generations of mobile internet connectivity, the 5G network has greater coverage area and reduced latency than the previous generations. Thus, the adoption of 5G networks in wireless communication will lead to the need for low-frequency, tall antenna macro cell sites for larger area coverage, which, in turn, will proliferate the for RF components.

However, rise in the cost of raw materials is anticipated to negatively impact the RF components market. Primary raw materials used in the production of RF components include silicon wafers, a variety of chemicals, and photoresist materials. Shortage of such raw materials due to increasing demand from manufacturers has resulted in industry-wide price adjustments and delivery delays. For instance, there is a rise in the prices of silicon wafers due to their growing demand in the semiconductor industry.

Product Insights

Based on product, the market has been segmented into filters, duplexer, power amplifiers, antenna switches, and modulators and demodulators. The power amplifiers segment held over 30% of the overall market share in 2018. It is expected to witness significant growth over the forecast period as well. Increasing applications of power amplifiers in HDTV, GSM, Radar, Point-to-Point Microwave, LTE & 5G signal amplification, etc. are anticipated to spur the segment growth over the forecast period. The filters segment is estimated to exhibit rapid growth over the forecast years, which is primarily attributed to rapid growth in the user base of mobile devices and 4G LTE networks. The antenna switches segment is estimated to witness a steady growth rate over the forecast years. This can be attributed to the increasing experimentation with switch architectures, rising applicability, and advancement of IoT technologies resulting in the development of small, inexpensive, and energy-efficient solutions.

Application Insights

Based on application, the market has been segmented into consumer electronics, automotive, military, and wireless communication. The consumer electronics segment accounted for more than 60% of the overall market in 2018. The segment is further expected to witness substantial growth over the forecast period. This may be attributed to the rising disposable income and increasing spending on consumer electronic devices, such as smartphones, tablets, laptops and notebooks, smart wearables, and smart home accessories. Extensive usage of IoT technologies and technological advancements like the incorporation of AI functions (voice recognition/controls) in TVs and set-top boxes are also driving the product demand in consumer electronics.

Furthermore, government mandates for the installation of set-top boxes in a number of countries is estimated to fuel the segment growth further. The automotive sector is also anticipated to witness rapid growth from 2019 to 2025 owing to increasing demand for connectivity features, such as navigation systems, Bluetooth, location tracker, music system, and central locking systems, in vehicles. Increasing number of automation solution installations in vehicels is also expected to drive the product demand in this segment.

Regional Insights

North America emerged as the leading regional market in 2018 due to quick adoption of advanced technologies and well-established telecommunication sector in the region. According to the International Telecommunication Union (ITU), in 2016, the percentage of individuals using internet in U.S. and Canada stood at 76.17% and 91.16% respectively. The market in Asia Pacific is anticipated to witness the fastest growth during the forecast period.

This growth is attributed to rising disposable income and resultant rise in the adoption of consumer electronics with connectivity features. Rising demand for better connectivity and mobility solutions along with increasing number of internet users in the region is also anticipated to drive the market. China, in particular, is expected to witness a significant growth on account of heavy investments by multinational companies in collaboration with Chinese government towards the 20 new semiconductor fab projects, which are to be completed by 2020, across the country.

Radio Frequency Components Market Share Insights

Key industry participants compete on the basis of the development of inexpensive products that offer higher flexibility and performance along with faster access to mobile data. Manufacturers also invest in the development of products with energy-efficient components based on materials, such as Gallium Nitride (GaN) and Silicon Carbide (SiC).

Furthermore, companies are focusing on new specialty technologies, such as RF and 3D-intelligent sensors, targeting 5G and IoT applications. Leading companies in the market include Broadcom, Inc.; Fujitsu Limited; International Quantum Epitaxy Plc; NXP Semiconductors N.V.; Renesas Electronics Corporation; Murata Manufacturing Co. Limited; Taiwan Semiconductor Manufacturing Co. Limited; Texas Instruments, Inc.; and TDK Corporation.

·         Regional Outlook (Revenue, USD Million, 2014 - 2025)

o    North America

§  U.S.

§  Canada

o    Europe

§  U.K.

§  Germany

o    Asia Pacific

§  China

§  India

§  Japan

o    Latin America

§  Brazil

o    Middle East & Africa (MEA)

Global Grease Analyzer Sales Forecast  Market research Detailed Analytical Overview by  2029

Grease and oil content in water is one of the key concerns as excess content of grease and oil in water is responsible for a considerably negative impact on the environment. Grease Analyzer is typically used for the determination of grease, fat, and oil content in the water. It also measures the level of oil and grease content in soil and drill cuttings.

Increasing use of grease analyzers to maintain the level of grease and oil in water, especially in wastewater, is boosting the grease analyzer market growth. Various industries have been following practices of discharging used water to water bodies. Determining the grease and oil content of industrial wastewater before discharging it to the water bodies is very crucial.  Growing demand for grease analyzers to determine the grease and oil content in industrial used water across the globe is accelerating the grease analyzer market growth.Grease analyzer gives instant testing results in nearly 3-5 minutes, with variety of measurement ranges such as 0.1-100 mg/l, 2-400 mg/l, 5-2,000 mg/l, 100-15,000 mg/l and 100-50,000 mg/l. Innovative features such as sensor signal with lock-in amplifier, self-content optical system, auto reset, regression equation calculation facility, and speed measurement makes grease analyzer user-friendly.

Download sample copy of this report:  https://www.futuremarketinsights.com/reports/sample/rep-gb-9850

Grease Analyzer Market: Key Dynamics

Increasing groundwater and surface water monitoring activities boosting grease analyzer sales

Maintaining the quality of surface and ground water is essential for safety purposes. Surface water and ground water is used for various purposes such as drinking, irrigation, electricity generation, and for sanitation purpose. Excess amount of grease and oil in water creates adverse effects and degrades the quality of the water. Increasing use of grease analyzer to monitor and maintain the quality of water by determining the grease and oil content in water is contributing to the growth of the market.

Grease analyzer is extremely useful in field-decision making process by providing accurate and reliable testing results. Rapidly increasing discharge of industrial wastewater degrades the quality of river and surface water. Industry players are focusing on various ways of maintaining the quality of the water. Increasing demand for grease analyzer from industry players across the globe to detect the grease level in the water and to maintain the quality of water is ultimately accelerating the grease analyzer market growth. On the other hand, analysis of samples has become a highly complex process due to the presence of various contaminants available in the sample which ultimately acts as a restraint for the growth of the grease analyzer market.

Grease Analyzer Market: Segmentation

Grease Analyzer Market: Competition Landscape

Grease Analyzer Market: Regional Overview

On the basis of geography, North America and Europe are anticipated to capture the substantial market share in terms of value in the grease analyzer market owing to the factors such as increasing number of industrial wastewater and surface water treatment plants. An adequate presence of key grease analyzer manufacturers in these regions is another factor that boosts the grease analyzer market growth. Moreover, the grease analyzer market in Asia Pacific region is expected to register significant growth over the forecast period due to the increasing requirement of pure water for various purposes such as irrigation, sanitation and for industrial operations. On the other hand, water scarcity issue in the MEA region and increasing need for treatment of industrial wastewater in this region is propelling the grease analyzer market.

The report is a compilation of first-hand information, qualitative and quantitative assessment by industry analysts, and inputs from industry experts and industry participants across the value chain. The report provides in-depth analysis of parent market trends, macro-economic indicators, and governing factors, along with market attractiveness as per segment. The report also maps the qualitative impact of various market factors on market segments and geographies.

Download & Explore the full Report @ https://www.futuremarketinsights.com/askus/rep-gb-9850

Overview

Future Market Insights is the premier provider of market intelligence and consulting services, serving clients in over 150 countries. FMI is headquartered in London, the global financial capital, and has delivery centres in the U.S. and India.

FMI’s research and consulting services help businesses around the globe navigate the challenges in a rapidly evolving marketplace with confidence and clarity. Our customised and syndicated market research reports deliver actionable insights that drive sustainable growth. We continuously track emerging trends and events in a broad range of end industries to ensure that our clients prepare for the evolving needs of their consumers.

FMI’s team of over 200 research analysts provides market intelligence at global, regional, and country levels. Our analysts are committed to provide independent insights, relying on our cognitive defusion training module, which conditions them to look at data objectively and unbiasedly.

Industries We Serve

FMI’s multi-disciplinary research team offers market intelligence on a broad range of end-use industries, including chemicals, healthcare, food & beverages, automotive, electronics & ICT, and energy. We cover markets in both, developed and developing regions, with specialfocus on GCC, ASEAN, and BRICS – the new frontiers of growth.

Contact Details:

616 Corporate Way, Suite 2-9018, Valley Cottage, NY 10989, United States T: +1-347-918-3531

Email: [email protected]

Ultrafast Laser Market Share to Witness Steady Rise in the Coming Decade

Market Overview:

Ultrafast lasers have been used for decades in industries for manufacturing powerful, clear-cut processing of all kinds of materials with high accuracy with very less initiative to innovate; which is lost in this marketplace. Ultrafast lasers are ultra-short pulse of light with an electromagnetic pulse whose time duration is of the order of a picosecond or less. Ultrafast lasers are commonly referred to as ultrafast events with an amplification of ultra-short pulses which always requires the technique of high pulse amplification, in order to avoid damage to the gain medium of the amplifier. In research & development department, advances in materials and laser configurations promise to open up a variety of new applications outside of the technology’s core area of industrial micromachining. Global Ultrafast LaserMarket is expected to grow in the forecasted period, in 2017 market size of the Ultrafast Laserwas XX million and in 2025 is expected to reach at XX million with growing CAGR of XX%.

Request For Report Sample with Table of Contents@ https://www.researchreportinsights.com/report/upsample/120124717/Ultrafast-Laser-Market v

Market Dynamics:

The automotive industry has been a driving force behind the innovations in high-powered laser applications for past two decades. Ultrafast lasers have potential to satisfy many requirements in the automotive industry, including quality, product miniaturization, high precision, smaller lots, and applicability to diverse materials, and cost-effectiveness. Automakers all around the world are under immense pressure to meet the targets, and strict rules imposed by the government, to increase the mileage and reduce the CO2emissions. Automobile manufacturers are turning towards technological innovations in lasers as one of the solutions, to squeeze more mileage out of existing fossil fuel engine designs.

Key Players:

The Ultrafast Laser market consists global and regional players includingAmplitude Systemes, Coherent Inc., Ekspla, Fianium Ltd, Jds Uniphase Corp., and Laser Quantum Ltd., among others.

Request For Report Discount@ https://www.researchreportinsights.com/report/updiscount/120124717/Ultrafast-Laser-Market 

Market Segmentation:

Ultrafast Laser market is segmented based on application, type, pulse durationand geography.Based on the type, the market is segmented into diode-pumped lasers, titanium-sapphire lasers, fiber lasers, and mode-locked diode lasers. Based on the pulse duration, the market is segmented into femtosecond and picosecond. Whereas, based on the application, the market is segmented into biomedical, materials processing, spectroscopy & imaging, science & research, and others. Ultrafast Laser Module by region segmented into North America, Europe, Latin America, Asia-Pacific and Middle East & Africa. In 2017, Europe currently has a strong position in the global lasers industry, which is based on its historic leading position in the industry, and its continuing strong industrial and research base. Most of the world’s major laser companies have their headquarters in Europe.

Report Analysis@ https://www.researchreportinsights.com/report/upcomming/120124717/Ultrafast-Laser-Market 

BMW Technical Abbreviations

New Post has been published on https://dragonauto.works/blog/bmw-technical-abbreviations/

BMW Technical Abbreviations

BMW like most automotive manufacturer like acronyms. Here is a list of Technical acronyms, abbreviations and terminology as used in BMW manuals and BMW service documents.

A

AAR – Automatic Air Recirculation.

AB – Airbag (airbag system).

ABL – Brake system warning Lamp.

ABS – Anti-lock Braking System.

AC – Air Conditioning.

ACC – Active Cruise Control.

ACS – Active Comfort Seats.

ACSM – Advanced Crash Safety Module.

ADB / ADB-X – Automatic Differential Braking.

ADAS – Advanced Driver Assistance System.

ADS – Engine intake air control.

ADV – Windshield wiper pressure control.

AEGS – Automatic Electronic Gearbox Control (also EGS).

AFM – Air Flow Meter.

AGD – Suction silencer.

AGR – Emission reduction.

AGS – Adaptive transmission control.

AG – Automatic Gearbox (transmission).

AHL – Adaptive Headlights.

AHK – Active rear-axle Kinematics.

AHK – Trailer hitch.

AHM – Trailer Module (not US models).

AHPS – Advanced HPS.

AIC – Automatic Interval Control (rain sensor).

AKF – Activated carbon canister.

AKS – Active head restraint.

AKS – Pressure regulating device.

ALC – Automatic Light Control.

ALR – Automatic Lamp Range Adjustment.

ALR – Automatic-locking retractors.

AMM – Air Mass Meter.

AMP – Radio system AMPlifier.

ARI – Car radio information system.

ARRB – Automatic Rear Roller Blind.

ARS – Active Roll Stabilization.

ASC – All Season traction.

ASC – Automatic Stability Control.

ASC-EZA – ASC w/ engine timing and injection intervention.

ASC+T – ASC+ Traction control.

ASK – Audio System controller (Kontroller).

ASR – Self starter block relay.

AST – Automatic Slip control (marketing term).

AST – All Season Traction.

AT – Antenna.

ATF – Automatic Transmission Fluid.

ATL – Exhaust gas turbo charger.

AS – Active Steering.

AUC – Automatic air recirculation.

AUT – AUTomatic transmission.

AVT – Antenna amplifier Tuner.

AZD – Tightening torque specifications.

A/D – Analog/Digital.

B

B – Benzene (petrol, gasoline).

BAT – BATtery.

BC – Board Computer.

BC1 – Body Controller (#1).

BL – Brake Light.

BLS – Brake Light Switch.

BMBT – Board Monitor.

BMW – Bavarian Motor Works (Bayerische Motoren Werke).

BS – Block diagram.

BST – Battery Safety Terminal.

BVA – Brake pad wear indicator.

BZM – Center console control center.

BZMF – Center console control center, rear.

C

CA – Comfort Access, also Client Advisor.

CAN – Controller Area Network (Multiple ECU Controller).

CAN-Bus – Controller Area Network (bus).

CANH-Bus – CAN bus, High.

CANL-Bus – CAN bus, Low.

CANP – Fuel tank ventilation valve.

CAS – Car Access System.

CBC – Corner Braking Control.

CBC – Cornering Brake Control.

CBS – Condition Based Service.

CCC – Car Communications Computer.

CCM – Check Control Module.

CD – Control Display.

CDC – Compact Disk Changer.

CDS – CD player.

CDV – Clutch Delay Valve.

CEL – CELsius.

CID – Central Information Display.

CIM – Chassis Integration Module.

CIP – Coding, Individualization, Programming.

CO – Carbon monOxide.

COMBI – Electronic Instrument Cluster.

CON – CONtroller.

CPO – Certified Pre-Owned.

CSL – Club Sport Lightweight (Club Sport Leicht).

CU – Copper.

CVM – Convertible top Module.

CVT – Constantly Variable Transmission.

CW – Drag coefficient.

CWP – Cold Weather Package.

D

D-Bus – Diagnosis bus (same as TXD).

D1 – Xenon light/ gas discharge.

DBC – Dynamic Brake Control.

DBS – Dynamic Braking System.

DCC – Dynamic Cruise Control.

DCS – Dealer Communication System.

DD – Dynamic motor Drive.

DDE – Digital Diesel Electronics.

DE – Diagnostic Unit.

DIN – German industrial standards.

DIS – Diagnosis and Information System.

DISA – Differential air intake control.

DIVA – Continuously variable length intake runners.

DK – Throttle housing/valve.

DKB – Throttle w/ brake intervention.

DKE – Throttle Increase.

DKI – Throttle position.

DKR – Throttle reduction.

DKT – Throttle position signal.

DKV – Preset throttle position value.

DM-TL – Diagnostic Module Tank Leakage.

DME – Digital Motor Electronics.

DOHC – Double Over Head Camshafts.

Double VANOS – Steplessly variable intake and exhaust valve timing.

DRL – Daytime Running Lights.

DS – gasket set.

DSC – Dynamic Stability Control.

DSP – Digital Sound Processing.

DTC – Diagnostic Trouble Code (SAE).

DTC – Dynamic Traction Control.

DWA – Theft deterrent system.

DWS – Tire pressure Warning System.

DZM – Revolution counter.

E

E-KAT – Electrically heated catalytic converter.

EBV – Electronic Brake force proportioning.

ECE – European market version.

ECM – Engine Control Module (SAE term).

ECO – Controller for I-Drive system.

ECU – Electronic Control Unit.

ED – European Delivery.

EDC – Electronic Dampening Control.

EDC-K – Electronic Dampening Control – Continuous.

EDK – Electronic throttle valve.

EDR – Electronic throttle control.

EDS – pressure regulator.

EFH – Electric window lifter.

EGS – Electronic transmission control.

EH – Electronic-Hydraulic.

EHC – Electronic Height Control.

EKM – Electronic body Module.

EKP – Electric fuel Pump.

ELV – Electronic steering lock.

EM – Electro-Mechanical.

EMF – Electro-Mechanical parking brake.

EML – Electronic Motor Load regulation.

EMV – Electro-Magnetic sensitivity.

EO – Component location.

EPC – Electronic Parts Catalog (also ETK).

EPROM – Erasable/ Programmable chip Memory.

ESS – Electronic anti-theft device.

ETK – Electronic parts catalog (also EPC).

ETM – Electrical Troubleshooting Manual.

EV – Injection Valve.

EWS – Electronic drive-away protection.

EZA – Same as ASC-EZA.

F

FB – Function description.

FBC – Fading Brake Control.

FBD – Remote control services.

FBZV – Radio frequency locking system.

FDRS – Fold Down Rear Seats.

FGR – Vehicle Speed Control (Cruise Control).

FH – Window lifter.

FHK – Rear Heater/ air conditioner.

FLC – Automatic Light Control.

FRU – Flat Rate Unit.

FS – Crash Sensor.

FTM – Flat Tire Monitor.

FZV – Central lock receiver.

G

GAL – Speed dependent sound volume.

GM – General Module.

GMR – Yaw moment control.

GPS – Global Positioning System.

GRII – Cruise control.

GRS – Rotation Rate Sensor.

GS – Belt Tensioner.

GWK – Torque converter lock-up control.

H

H2 – Xenon headlights.

HA – Rear Axle.

HC – Hydro Carbon.

HD – Heavy Duty.

HDC – Hill Decent Control.

HFM – Hot Film air mass Meter.

HG – Manual Gearbox (transmission).

HKL – Hydraulic trunk lid Lift.

HLM – Hot Wire Air Mass Meter.

HPS – Head Protection System.

HR – Heater control.

HU – Head Unit.

HUD – Heads Up Display.

HVA – Hydraulic Valve Adjuster.

HWS – Headlight Washer System.

Hz – Hertz (Cycle).

I

I-Bus – Information bus.

IB – Interior lighting control signal.

IHKA – Automatic Heating and A/C.

IHKAF – IHKA w/ micro filter.

IHKR – Regulated Heating and A/C.

IHKRF – IHKR w/ micro filter.

IHKS – Standard Heating and A/C.

IHPD – Internal High Pressure Deformation.

IHR – Integrated Heater control.

IKE – Instrument cluster Electronics.

ILH – Interior Lighting, rear.

ILV – Interior Lighting, front.

IMS – Instant Mobility System.

IR – Infrared.

IRS – Infrared Locking System.

ISC – Idle Speed Control.

ISIS – Intelligent Safety and Information System.

ISN – Individual Serial Number.

ISOFIX – Standardized mounts for child restraints.

ITS – Head airbag assembly/ Inflatable Tubular Structure.

IVM – Integrated power supply Module.

J

#

K

K-Bus – Body bus (Karosserie).

KAT – Catalytic converter.

KATON – Converter creating (signal).

KD – Kick-Down.

KHI – Interface for headphones.

KL – Terminal designation.

KL15 – Run bus (ignition switch run position).

KL30 – Battery bus (hot at all times).

KL31 – Ground bus (chassis ground).

KL50 – Start bus (ignition start position).

KLR – Accessory bus.

KO – Compressor ON signal.

KOMBI – Instrument cluster.

KOREL – Compressor relay signal.

KR – Contact Ring.

KSK – Knock Sensor.

KVA – Fuel consumption signal/value.

KW – Crankshaft.

KW – KiloWatt.

L

LCM – Lamp Check Module.

LDP – Leak Diagnosis Pump.

LEV – Low Emissions Vehicle.

LEW – Lateral acceleration sensor.

LHD – Left-Hand Drive.

LKM – Lamp control Module.

LL – Closed throttle.

LM – Light Module.

LMM – Air flow meter/sensor.

LMR – Light alloy wheel.

LRA – Vertical headlight aiming.

LSM – Steering column memory.

LSZ – Lamp Switching center.

LVA – Air supply system (for EHC system).

LVDS – Low Voltage Differential Signaling.

LWR – Vertical headlight aim control.

LWRT – Low Weight Reinforced Thermoplastics.

LWS-5 – Steering angle sensor.

M

M-Bus – IHKA/IHKR stepper motor bus.

MAL – Center armrest.

MBC – Maximum Brake Control.

MDK – Motorized throttle valve/system.

MFC – Multi-Function Controller.

MFL – Multi-Function steering wheel.

MFS – Multi-Function Steering Wheel.

MFU – Multi-Function Clock.

MID – Multi-Information Display.

MIL – Malfunction Indicator Lamp (SAE), “check engine”.

MIR – Multi-Information Radio.

MMC – Multi-Media Changer.

MoDiC – Mobile Diagnostic Computer.

MOST-Bus – Media Oriented System Transport bus.

MRS – Multiple Restraint System.

MSR – Engine drag torque Regulation.

MV – Magnetic Valve (solenoid Valve).

N

n-ab – Rotational speed, transmission (rpm).

n-mot – Rotational speed, engine (rpm).

NAVI – Navigation module.

NG – New Generation (N73 engine).

NG – Tilt sensor.

NOX – Nitrogen Oxides/ exhaust gas recirculation.

NSD – Rear muffler.

NSL – Rear fog Lamp.

NSW – Fog lamp.

NTC – Negative Temperature Coefficient.

NW – Camshaft.

O

OBC – On-Board Computer.

OBD – On-Board Diagnosis.

OEM – Original Equipment Manufacturer.

P

P-Bus – Periphery bus.

P/N – Park/Neutral position.

PB – Pin assignments.

PBS – Parts Bulletin System (in TIS).

PCD – Performance Center Delivery.

PDC – Park Distance Control.

PDI – Pre-Delivery Inspection.

PGS – Passive Go System.

PM – Power Module.

PP – Impact Pad.

PTC – Positive Temperature Coefficient.

PuMA – Product and Measures Management in After sales.

PWG – Pedal position sensor/ potentiometer.

Q

#

R

RA – Repair instructions.

RAL – Aluminum wheels.

RAL – Standard color.

RAM – Random Access Memory.

RDC – Tire pressure Control.

RDS – Radio Data-broadcast System.

RDW – Tire pressure Warning.

RFT – Run Flat Tires.

RHD – Right-Hand Drive.

RLS – Rain-Light Sensor.

RM – Relay Module.

ROZ – Research Octane rating/ fuel grade.

RPA – Tire puncture warning.

RPS – Rollover Protection System.

RS – Repair kit.

RSC – Run flat System Components.

RSW – Back-up lamp.

RXD – Wake-up Diagnosis line.

RZV – Direct stationary ignition.

S

SA – Sales Advisor or Service Advisor.

SASL – Satellite, A-pillar left.

SASR – Satellite, A-pillar right.

SAV – Sport ACTIVITY Vehicle.

SB – Fuse assignments.

SBE – Seat occupancy detector/sensor.

SBFH – Seat module, passenger-side rear.

SBK – Safety Battery Terminal Clamp (???).

SBSL – Satellite, B-pillar left.

SBSR – Satellite, B-pillar right.

SBT – SI techniques/ tech reference information (in TIS).

SCA – Soft Close Automatic/Actuator.

SD – Silencer/ muffler.

SD – Sliding roof.

SE – Special Equipment.

SES – Voice Recognition System.

SFAH – Seat module, driver’s side rear.

SFZ – Satellite, vehicle center.

SG – Control unit.

SGS – Seat integrated belt System.

SHD – Sliding/ lifting roof.

SHD – Sunroof module (also SHDM).

SI – Service Information (in TIS).

SIA – Service Interval system (ver. I, II, III, IV, etc.).

SII – Service Interval Indicator.

SIL – SILicon.

SIM – Safety Information Module.

SINE – Siren/tilt sensor.

SKD – Steel sliding roof.

SKHD – Steel sliding/ lifting roof.

SM – Seat Module.

SM/SPM – Seat/Mirror Memory.

SMBF – Seat Module, passenger side.

SMFA – Seat Module, driver’s side.

SMG – Sequential Manual Gearbox.

SP – Schematic.

SRA – Headlight/fog light cleaning.

SRS – Supplemental Restraint System.

SSD – Steel sliding roof.

SSH – Seat Satellite, rear seat.

ST – Connector views.

Steptronic – Transmission shift control.

STVL – Satellite, left front door.

STVR – Satellite, right front door.

SULEV – Super Ultra Low Emissions Vehicle (not coined by BMW).

SVS – Speech processing System.

SWR – Headlamp cleaning system.

SWZ – Special tool listings (in TIS).

SZL – Switch center, steering column.

SZM – Central switch center Module.

T

TAGE – Door handle Electronics.

TCM – Transmission Control Module.

TD – Engine speed signal (ignition pulse).

TD – Technical Data (in TIS).

TDD – Technical Documentation Disk.

TE – Fuel evaporation control.

TEL – TELephone control unit.

TEV – Evaporative purge control.

THZ – Tandem master cylinder.

ti – Injector ON Time (duration).

TIS – Technical Information System.

TL – Part throttle / load signal.

TLEV – Transitional Low Emission Vehicle.

TMBFT – Door Module, passenger side.

TMBFTH – Door Module, passenger side rear.

TMC – Traffic Message Channel.

TMFAT – Door Module, driver’s side.

TMFATH – Door Module, driver’s side rear.

TP – Tandem Pump.

TP – Traffic Program.

TPC – Tire Pressure Control.

TPM – Tire Pressure Monitor.

TPS – Throttle Position Switch/Sensor.

TR – Engine speed signal (rpm).

TR – TRansistor.

TRG – Fuel level sensor.

TRI – Technical Reference Information (also SBT).

TRS – Battery isolation Switch.

TSB – Technical Service Bulletin.

TSD – Torsional vibration dampener.

TSH – Door lock Heating.

TSZI – Transistorized coil Ignition system.

TU – Technical Update (as in M50tu).

TXD – Transmitting Diagnosis line.

U

U-batt – Battery voltage.

U-vers – Supply voltage.

UERSS – Rollover bar.

URS – Rollover protection System.

USIS – Ultrasonic passenger compartment Sensor.

V

V – Vorn (front).

V – Vehicle road speed.

VA – Front Axle.

VAC – Voice Activated Control.

VANOS – Variable camshaft timing.

VAT – Front axle support.

VDC – Vehicle Distribution Center.

VEP – Distributor-type injection Pump.

VID – VIDeo module.

VL – Full load (wide open throttle).

VPC – Vehicle Preparation Center.

VSD – Front muffler.

VVT – Valve tronic.

W

WBG – Hazard warning switch.

WIM – Wiper control Module.

WK – Torque converter lock-up clutch.

WSS – Wind Shield.

WT – Valve tronic control unit.

X

#

Y

#

Z

ZAB – Ignition fade-out (reduction).

ZAE – Central Airbag Electronics.

ZAS – Ignition starter switch.

ZCP – Competition Package (M3).

ZCW – Cold Weather Package.

ZGM – Central Gateway Module.

ZHP – Performance Package (Available on US-Market e46 330i/Ci/Cic Only).

ZK – Cylinder head.

ZKE – Central body Electronics.

ZKH – Cylinder head cover.

ZMS – Dual-Mass flywheel.

ZPP – Premium Package.

ZS – Central lock.

ZSD – Center muffler.

ZSP – Sport Package.

ZV – Central locking system.

ZVM – Central locking Module.

ZWD – Idle control valve.

Stocks to Watch: 5G Needs an “Edge” (FSLY, SWKS, AFFU, XLNX)

As the 5G revolution sets into place as a new foundation for technology, Edge Computing is going to be the “killer app” that ties 5G low-latency potential with visions of the magic we imagine when we think of a “smart” world coming into existence during the first half of this century. In other words, without edge computing, 5G won’t mean a whole lot when it comes to autonomous vehicles, smart cities, robot police and doctors, smart energy grids, and lots of other futuristic concept candy. As a result, the global Edge Computing market is expected to grow from $2.8 billion in 2019 to reach $18.36 billion by 2027, according to Fior Markets. With that in mind, here are a few of the more interesting Edge Computing stocks in play right now: Fastly Inc (NYSE:FSLY), Skyworks Solutions Inc (NASDAQ:SWKS), Affluence Corp. (OTCMKTS:AFFU), and Xilinx, Inc. (NASDAQ:XLNX). Fastly Inc (NYSE:FSLY) trumpets itself as a company that operates an edge cloud platform for processing, serving, and securing its customer's applications.  The edge cloud is a category of Infrastructure as a Service that enables developers to build, secure, and deliver digital experiences at the edge of the Internet. It is a programmable platform designed for Web and application delivery. As of December 31, 2019, the company's edge network spans 68 points-of-presence worldwide. It serves customers operating in digital publishing, media and entertainment, technology, online retail, travel and hospitality, and financial technology services industries.  The company was formerly known as SkyCache, Inc. and changed its name to Fastly, Inc. in May 2012. Fastly, Inc. was founded in 2011 and is headquartered in San Francisco, California. Fastly Inc (NYSE:FSLY) just announced the extension of its platform’s observability features to its Compute@Edge serverless compute environment.  According to its release, these advancements include customizable logging, real-time and historical metrics, and newly launched tracing, giving developers newfound transparency into what happens after code is deployed within a serverless architecture and unlocking mission-critical visibility needed to find and fix operational issues fast. Fastly’s Compute@Edge helps companies build applications and execute code on its globally distributed infrastructure, at the edge of the internet, without any of the maintenance or headache of managing it directly. It will be interesting to see if the stock can break out of its recent sideways action. Over the past week, the stock is net flat, and looking for something new to spark things. Fastly Inc (NYSE:FSLY) pulled in sales of $62.9M in its last reported quarterly financials, representing top line growth of 38.1%. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($186.7M against $40.4M). Skyworks Solutions Inc (NASDAQ:SWKS), together with its subsidiaries, designs, develops, manufactures, and markets proprietary semiconductor products, including intellectual property worldwide. Its product portfolio includes amplifiers, antenna tuners, attenuators, circulators/isolators, DC/DC converters, demodulators, detectors, diodes, directional couplers, diversity receive modules, filters, front-end modules, hybrids, LED drivers, low noise amplifiers, mixers, modulators, optocouplers/optoisolators, phase locked loops, phase shifters, power dividers/combiners, receivers, switches, synthesizers, technical ceramics, voltage controlled oscillators/synthesizers, and voltage regulators, as well as wireless radio integrated circuits.  The company provides its products for use in the aerospace, automotive, broadband, cellular infrastructure, connected home, industrial, medical, military, smartphone, tablet, and wearable markets. It sells its products through direct sales force, electronic component distributors, and independent sales representatives.  Skyworks Solutions Inc (NASDAQ:SWKS) recently announced that that its Milpitas, Calif. facility has achieved AS9100D certification. According to the company, through its defense and space business (formerly known as Isolink), Skyworks is a leading global supplier of high performance, high-quality radiation-tolerant components for aerospace, defense, medical, extreme industrial and high-reliability markets and applications. If you're long this stock, then you're liking how the stock has responded to the announcement. SWKS shares have been moving higher over the past week overall, pushing about 6% to the upside on above average trading volume. Skyworks Solutions Inc (NASDAQ:SWKS) generated sales of $766.1M, according to information released in the company's most recent quarterly financial report. That adds up to a sequential quarter-over-quarter growth rate of -14.5% on the top line. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($1.1B against $362.2M). Affluence Corp. (OTCMKTS:AFFU) is a holding company focused on the acquisition and roll-up of synergistic companies providing 5G enhancing infrastructure and technologies, edge computing, and innovative cloud solutions. Through acquisition and partnership, Affluence’s goal is to build a world leading business which brings together edge cloud enhancing technology for the next generation of communication.  Major technology changes are disrupting the traditional networking sector. Current centralized infrastructure is inadequate to provide the resilience and bandwidth needed for the next generation of internet, which needs to be designed for machines. Affluence is working to provide the infrastructure and solutions to power industrial automation or smart cities, healthcare, AI, robotics and more. The company seeks to position itself as a global leader in edge computing solutions that will power next generation internet and enable any town or city to become a ‘smart city’ through the company’s intelligent IoT smart city solution builder. Affluence Corp. (OTCMKTS:AFFU) recent announced that the company is acquiring Flexiscale (LOI signed), which gives it an A-level thoroughbred in the edge computing race. Flexiscale already has a two-year lead in the marketplace and may be the only edge cloud computing infrastructure company in the world that has already fully developed and begun deploying this game-changing technology. It has a fully deployed Edge Cloud platform, operational and technological advantage to drive profitability on further acquisitions, energy efficient Metro datacentre in place with metro wide connectivity, highly efficient datacentre infrastructure with 85% reduction in space, 40% reduction in operating costsm and 30% increase in performance, and a partnership with Flexiant for the Edge Cloud Orchestration Software, along with a fully functional Application IoT ready Edge Service Delivery platform. Affluence Corp. (OTCMKTS:AFFU), in its new form, is an edge computing play that is pre-revenue. But the company’s aggressive moves to lay claim to a leadership position suggest a relatively short period before we start to see meaningful financials surface that give us a better picture. Right now, it is a highly speculative prospect with a promising start through strategic positioning. Xilinx, Inc. (NASDAQ:XLNX) promulgates itself as a company that designs and develops programmable devices and associated technologies worldwide. Its programmable devices comprise integrated circuits (ICs) in the form of programmable logic devices (PLDs), such as programmable system on chips, and three dimensional ICs; adaptive compute acceleration platform; software design tools to program the PLDs; software development environments and embedded platforms; targeted reference designs; printed circuit boards; and intellectual property (IP) core licenses covering Ethernet, memory controllers, Interlaken, and peripheral component interconnect express interfaces, as well as domain-specific IP in the areas of embedded, digital signal processing and connectivity, and market-specific IP cores.  The company also offers development boards; development kits, including hardware, design tools, IP, and reference designs that are designed to streamline and accelerate the development of domain-specific and market-specific applications; and configuration products, such as one-time programmable and in-system programmable storage devices to configure field programmable gate arrays. In addition, it provides design, customer training, field engineering, and technical support services. Xilinx, Inc. (NASDAQ:XLNX) updated the range of its prior guidance for its first quarter of fiscal 2021 ended June 27, 2020, guiding performance slightly lower, but not as much as analysts may have been expecting, and just putting out guidance at all in this context is generally seen as a sign of confidence. "While we have seen some COVID-19 related impacts during the June quarter, our business has generally performed well overall, with stronger than expected revenues in our Wired and Wireless Group and Data Center Group more than offsetting weaker than expected revenues in our consumer-oriented end markets, including automotive, broadcast, and consumer. A portion of the revenue strength in the quarter was due to customers accelerating orders following recent changes to the U.S. government restrictions on sales of certain of our products to international customers," said Victor Peng, Xilinx’s President and Chief Executive Officer. And the stock has been acting well over recent days, up something like 5% in that time. Xilinx, Inc. (NASDAQ:XLNX) pulled in sales of $756.2M in its last reported quarterly financials, representing top line growth of -8.7%. In addition, the company has a strong balance sheet, with cash levels far exceeding current liabilities ($2.3B against $1.1B). Read the full article