#bd electronics

Há umas semanas, divulgámos um anúncio da Universidade de Aveiro que oferecia a bacharéis e licenciados um estágio de um semestre a troco de 120 euros mensais. Após a publicação, dois deputados do Bloco de Esquerda enviaram uma pergunta sobre a oferta ao Ministério da Ciência, Tecnologia e Ensino Superior. Passado um dia, o Jornal de Negócios dedicou uma notícia ao caso e, passados dois, a universidade respondeu que tinha havido uma «interpretação errónea» do anúncio, mas acabou por corrigi-lo. Só que este não foi caso único.

Um mês antes, o Jornal Online da instituição de ensino havia informado que a BD Electronics estava à «procura de colaboradores» e divulgou 13 ofertas de trabalho da empresa alemã. As propostas eram sobretudo estágios, dirigidos a estudantes de várias áreas de formação mas também a graduados (que já não podem fazer estágios curriculares), e apresentavam diferentes condições contratuais.

Ofereciam-se estágios com salários mensais entre os 50 euros (para um assistente de marketing) e os 300 euros (para um programador informático). Havia também propostas com ordenados-base de 50 ou 100 euros mais comissões de vendas. Os cargos seriam desempenhados na Alemanha ou em Malta e a maioria exigia excelente domínio do inglês. Uma das vagas, não referente a um estágio, previa um vencimento de 150 euros por mês a um trabalhador que falasse chinês.

ACEINNA, Inc. is a leading MEMS-based sensing solutions company headquartered in Boston, Massachusetts. Founded in 2017, ACEINNA Inc. was spun off from MEMSIC. In the very first beginning, the MEMSIC was founded in 1999 to design, develop and manufacture world-class MEMS sensors. 

ACEINNA Inc. is an innovative, fast-growing, and technology-driven company. Its passion is to create winning products, provide customer satisfaction, generate financial returns to its partners, and offer its employees a rewarding work platform. 

Its focus is on developing products that are essential to next-generation cars, robots, and other autonomous applications. 

The main product categories are as follows:

Internal Systems

Inertial Measurement Units (IMU)

Open IMU solutions offer best-in-class IMU performance with fully customizable, open-source algorithms.

 Tilt Sensors

Ruggedized, environmentally sealed inertial sensors that can survive tough construction, agriculture, and industrial applications.

Alt text: The Best Tilt Sensors’ distributor

Inertial Navigation Systems (INS)

GNSS & IMU sensors combined to deliver cm level accuracy positioning and inertial positioning estimation.

Alt text: Inertial Navigation Systems distributor

Current Sensors

ACEINNA’s new family of MCx1101 AMR current sensor ICs are integrated within an easy-to-use, cost-effective, single-component solution. These products offer design engineers and other partners a compelling alternative for new system designs by providing benchmark performance for accuracy and high bandwidth with a low phase delay.

Flow and Differential Pressure Sensors

ACEINNA’s flow and differential pressure sensors are designed to serve the need for mass flow in multiple applications, such as gas meters, HVAC, medical, chemical, food and beverage, etc. 

Grayhill, Inc. is a leading manufacturer of electronic components including, optical and mechanical encoders. The company also designs and manufactures rotary switches, joysticks, surface mounts, and thru-hole DIP switches.

In addition, Grayhill designs high-performance rotary DIP switches, toggle switches, standard & custom keypads, custom operator interface front panels, I/O modules, and mounting racks.

FERROXCUBE is the leading manufacturer of ferrite-ceramic technology, which offers a wide range of soft ferrite cores, accessories, and EMI suppression products. These are to supply to electronic manufacturers in the electromagnetic sector. Ferroxcube also offers extensive design-in support, such as application information and software to help designers optimize their new designs. The company emphasizes the miniaturization of magnetic functions. Ferrite parts and accessories from FERROXCUBE are essential in various digital electronics markets, from telecommunications and computing to automotive.

FERROXCUBE CORE VALUES

Innovation for Tomorrow's Application Ferroxcube distributors supply one of the broadest ranges of high-quality & innovative ferrite products. They put a strong emphasis on the miniaturization of magnetic functions and aim to support the digital electronics markets of today.

Business Excellence Ferroxcube believes that the ferrite components business is beyond supplying the market with high-quality products. The company continues to strive for quality and excellence in everything including customer support & service.

Committed to Environmental Care One of the most important prides of the company is its committed concern for the environment. Ferroxcube strives to provide everyone with the highest standards of health & safety.

Atmel was acquired by Microchip in April 2016. Atmel Company is a leading company within the design and manufacture of advanced semiconductors, with a concentrate on microcontrollers, nonvolatile memory, logic, radio frequency (RF) components, and sensors. These capabilities are marketed as standard products, application-specific standard products (ASSPs), or customer-specific products (ASICs) to be able to present a fast and versatile response to the needs of Atmel’s clients.

Banner Engineering is a leading manufacturer within the discipline of industrial automation. Banner’s sensors and imaginative and prescient, LED lights and indicators, wireless and security products are utilized by corporations massive and small, from business leaders within the Fortune 500 to innovators merely coming into the market. Corporations worldwide use Banner’s award-winning products and solutions to extend effectivity, cut back costs, safeguard tools, and protect personnel. Headquartered in Minneapolis, MN, Banner has sales offices, manufacturing amenities, and discipline representatives in North and South America, Asia, Africa, Australia, and Europe.

Indeed, one of each 5 Banner staff is involved in product design, which is the best percentage. The state-of-the-art Banner Design Center homes more significant than 100 engineers, the most prominent engineering employees of its form. The company focuses on research, development, and applying the most recent optical and security technologies and integrated circuit design and software program improvement.

*picture taken from VH audio*

This week's post is all about Interconnects! What, how, the different designs, and where to get it!

What is an Integrated Circuit (IC)?

The IC or Integrated Circuit is a collection of electronic components fabricated together as a single unit. An integrated circuit can be a combination of passive devices such as resistors and capacitors and active devices such as transistors and diodes: these devices and the connections between them on a thin surface of a semiconductor material like silicon. Integrated circuits are also commonly known as microchips, microelectronic circuits, or simply chips. The circuit resulting can be as small as a few square millimeters or up to several centimeters. Each of these components is relatively microscopic (Saint, 2006).

How is an IC made?

The manufacturing process of an IC consists of the following six steps:

Pure silicon crystals pass through long cylinders and slice into thin wafers, and then later cut down into several chips.

These wafers are then heated and coated with silicon dioxide. We use ultraviolet blue to add a protective layer called photoresist.

Etching is to remove some photoresist from the surface by using chemicals to make a pattern. This pattern shows the areas, which would get the n-type and p-type silicon.

The etched wafers are once again heated with impure gases to make p-type and n-type silicon areas.

For testing purposes, a long metal wire from the testing machines is connected to the terminals of the chip and is tested using a computer. The chips that do not perform well during this test are marked as rejected.

The approved chips are cut out of the wafers and then packed with plastic protection making the IC ready for electronic components (Woodford, 2020).

What are different types of ICs?

We can classify integrated circuits into two basic types, including analog circuits and digital circuits.

Analog Design:

Also known as linear circuits, analog circuits are composed of only a few components and are considered one of the simplest types of Integrated Circuits. Analog circuits are usually connected to devices that take an infinitely variable real-world voltage or current measurement and modify it somehow. An analog circuit can be used to amplify or compare a signal, mix two or more signals, separate a signal from another and examine it for its value.

Digital Design:

A digital circuit is much more complex than an analog one and usually consists of many times as many components as an analog circuit. Such an extensive circuit design is made by copying and reusing the same circuit functions using digital design software. These digital design software usually come with libraries full of commonly used pre-structured circuits. As compared to an analog circuit, a digital circuit only accepts voltages of specific values. Some digital circuits, such as a binary circuit, operate using two states only, i.e., the Boolean Algebraic logic as 1 and 0, representing the two states on and off.

Mixed Signals:

When analog and digital integrated circuits are used together on a chip, the resulting IC is called mixed-signal IC (Saint, 2006).

How does an IC work?

The working of an IC is quite similar to that of an oscillator, timer, amplifier, and microprocessor. All IC components are responsible for executing various computations of data through either digital or analog technology. Digital ICs are the most common ones and use logic gates, working with 0s and 1s. Transmission of a low signal can occur to a component over a digital integrated circuit giving a value of 0. Similarly, the transmission of a high signal generates a value of 1. On the other hand, analog or linear ICs work with continuous values. (Elprocus, n.d.).

What are the applications of ICs?

Integrated Circuits are one of the essential components of all electronic things. An IC is in almost every electronic device, be it as simple as an LED bulb or as complex as a supercomputer. Typical applications of ICs include transducers, temperature sensors, logic units, amplifiers, counters and radio receivers, etc.

Where to buy ICs?

Fairchild Semiconductor is a leading global manufacturer of power analog, power discrete, and optoelectronic components to optimize system power. Being recognized as The Power Franchise®, Fairchild Semiconductor provides a broad portfolio of electronic components. Electronic companies can use these products in many electronic applications, such as computing, communications, consumer, industrial, and automotive segments. Fairchild, the descendant of a seminal Silicon Valley startup founded in 1957, sells thousands of components used in cars, smartphones, appliances, and other products.

Founded in 1960, Fairchild has its manufacturing facilities in South Portland, Maine, to produce, test, and assembly of transistors. The practical use includes radios, oscilloscopes, and other instrumentation. Today, Fairchild specializes in developing and manufacturing a complete portfolio of low-power to high-power solutions for the mobile, industrial, cloud, automotive, lighting, and computing industries.