Suntan Booth 5G-D21 on HK Electronics Exhibition during Oct. 13~16

Suntan Technology Company Limited 

---All kinds of Capacitor

Suntan будет присутствовать на выставке электроники в Гонконге (стенд 5G-D21), проводимой HKTDC в выставочном центре Гонконга с 13 по 16 октября. Мы искренне приглашаем вас посетить наш стенд для личной встречи. Если вы заинтересованы в том, чтобы поговорить с нами, отправьте нам электронное письмо для ранних переговоров, и тогда мы сможем подготовить дополнительную информацию и даже образцы для вашего тестирования, чтобы сэкономить время. Добро пожаловать и с нетерпением ждем вашего визита!

Su Suntan Summer Holiday

Suntan Technology Company Limited
---All kinds of Capacitors

Queridos clientes,
 
Férias de verão estão chegando, se você tiver qualquer novo pedido durante este tempo, por favor, planeje e organize com antecedência, para que você possa receber a mercadoria a tempo após o feriado.
por favor, verifique os produtos bronzeadores: http://www.capacitors.hk/

Suntan vai fazer grandes esforços para proporcionar um melhor serviço

Suntan Technology Company Limited
----All Kinds of Capacitors

É já meados de fevereiro agora. Primavera tem de acordar de um longo sono. Tudo volta à vida nesta temporada.É também um novo princípio de Suntan.
Neste novo ano, Suntan vai fazer grandes esforços para proporcionar um melhor serviço aos nossos clientes.
 
Não importa se você não sabe muito sobre nós ou não têm qualquer contato com a gente antes.
Você pode tentar enviar-nos algumas perguntas primeiro a dar-nos uma oportunidade de atendê-lo, se quiser.
 
Nós temos uma variedade de produtos. Por favor, clique no link abaixo para ver mais:
 
Estamos ansiosos para ter uma grande cooperação com todos vocês!
 

Su Suntan Small Bubbles, Big Capacitors

Suntan Technology Company Limited
---All kinds of Capacitors

In many ways capacitors are the hidden saving grace of the electronics world. They play an essential role in smoothing switch transitions by storing and releasing a small amount of energy over short time scales. Although inductors can play the same role, I think it is safe to say that without small, accurately valued capacitors the modern electronics industry would be a very different beast. Essentially, capacitors store charge, which means that the amount of charge they can store is related to the area available to put said charges. Over recent years, the development of better control over small scale structuring has lead to large increases in capacitance in relatively small packages. The increases have been such that there have been some thoughts of putting these supercapacitors to work as battery replacements in applications where high currents are required.

On that front we can present some good news. Last month Science reported that scientists had observed an unexpectedly large increase in capacitance in some nanoporous materials. A capacitor at its most simple is a couple of parallel metal plates, where the capacitance increases with the size of the plates and as the two plates get closer together. Unfortunately, increasing the area without too much thought is a quick way to find yourself ordering another 19 inch rack for your capacitors, while sparks, ashes, and electrical fires come from the plates getting too close together. However, an alternative is to roughen the surface and include an electrolyte, which effectively replaces the second plate. This increases the surface area of the plates without increasing the volume. The development of nanoporous materials has lead to dramatic increases in the surface area of capacitors and hence a reasonably sized supercapacitor. Exploring nanoporous carbon for capacitance is nothing new, however, previous methods had very little control over the pore size. Here the researchers developed a different fabrication process that allows them to control the pore size to within 0.05nm. The process begins with a carbide substrate, which is a metal plus carbon atoms. They then etch the metal away by reacting it with chlorine, leaving the surrounding carbon structure intact. Since the amount of metal in a carbide depends on the which metal is used, the pore size can be controlled quite accurately by a good choice of metal and the amount of etching performed.

Once the pore size reduced to that below the electrolyte ion plus surrounding solvent molecules , the effect of the pores was reduced. This is because the increased surface area only works if the distance between the electrolyte and plate remains constant and once the pores get too small the charges on the inside of the pore are too far from the nearest electrolyte ion. However, a further decrease in pore size saw the capacitance increase again. It turns out that when the material is so porous, many of the carbon atoms are just barely hanging on. As a result they can move around quite a bit, which allows the electrolyte to squeeze in. The resulting tight fit between the two means that along with an effective increase in surface area, the gap between the two plates is also decreased. Both of these factors increase the capacitance.

I would say the future looked foamy but my glass is empty.

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