Su Suntan Accept Currencies other than US Dollars from Sep. 1, 2019
Suntan Technology Company Limited
Suntan Technology Company Limited
Suntan Technology Company Limited
---All kinds of Capacitors
The most important festival for all the Chinese, our Lunar New Year, is coming very soon now.
Suntan’s sales team will begin the holiday from February 1st till February 11th.
If you have any purchasing plans or urgent requirements lately, please hasten to contact our sales for order placing, then we’ll arrange production for you as soon as possible.
We wish all of you a happy, healthy and prosperous New Year!
Learn more:http://suntan.com.hk/
Suntan Technology Company Limited
---All kinds of Capacitors
Suntan Supports dipped MLCC with short lead time, we can make the order ready within 4 weeks.
This part could be used in Automotive, Motor application, Lucas – TVS is our main customer who buy this series in India.
Please find more details by this link: http://www.suntan.com.hk/pdf/Ceramic-Capacitors/TS17.pdf
Welcome to send us RFQ!
Suntan Technology Company Limited
----All Kinds of Capacitors
Base on series CD60-F &CD60-J,we have developed a new model CD60-K motor starting capacitor as well. The manufacturing technology and efficiency had been improved a lot, so we can support better price, better MOQ and better lead time. We stand behind our products and are confident you will be satisfied with your purchase from us.
Features/Benefits:
Capacitance:130-156uf Material :Bakelite shell
Low spoilage and stable capability Rated voltage: 250VAC
Rated frequency :50/60Hz
Application:
CD60-K can help motors gain high torque with low starting current and make motor start normally. And it can also start to refrigerators and compressors of air condition, etc.
Suntan Technology Company Limited
----All Kinds of Capacitors
We Suntan produce Motor Running Capacitors, which have CE certificate to ensure the high safety and high reliability for our products. Do you have interest to try our offer?
Motor Capacitors list:
TS11-B~9: Motor Running Capacitor with Box Shape and Plastics Case
TS11-10~21: Motor Running Capacitors with Cylinder Shape and Plastics Case
TS11-22~26: Motor Running Capacitors with Cylinder Shape and Aluminum Case
Storage—there is never enough of it. I still remember when I thought my 700MB hard drive was huge... until I tried to copy an entire CD onto it for faster access. After that, I spent a period stuck choosing music to stick on my three GB hard drive. Two weeks ago, I ditched six months' worth of simulation data because my 320GB hard drive was full. One TB of new drive later, and I'm wondering how soon it will be before I start feeling the squeeze again. Maybe never, if some of the latest research coming out of Korea and Germany bears fruit.
One of the cool things about hard drive technology is how it has actually kept pace with computer needs. The basic mechanism for hard drive storage, however, does have some fundamental limitations, which manufacturers will have to deal with fairly soon. Bits are currently stored in the orientation of tiny magnets, called ferromagnetic domains, on a hard drive platter. The smaller the domain, the easier it is for that orientation to be scrambled by temperature or stray electromagnetic fields. At a certain size, thermal photons (e.g., heat energy from the surrounding case or the underlying disk) have enough energy to flip a domain's orientation. Manufacturers will have to keep their domain sizes significantly bigger than that threshold size to ensure data integrity, which puts a ceiling on storage density, one we're rapidly approaching.
An alternative is to use ferroelectric domains. Unlike ferromagnetic domains, ferroelectric domains have a natural electric field with an orientation that can be used to represent data. Until recently, these haven't looked that attractive because they have pretty much the same limitations that ferromagnetic domains have, but they lack the cool read-out tricks. Ferroelectric materials, however, do have one big advantage over ferromagnetic materials: they can be used to make really good capacitors. This is exactly what the latest research, published in Nature Nanotechnology, is about.