On September 27th, NXP Semiconductors (NASDAQ: NXPI) and Xiaomi Company announced that they will realize safe and convenient public transportation movement on subways and bus lines in many major cities in China through in-depth integration of their professional experience and cutting-edge technology. Payment experience. In addition, Xiaomi's recently launched "Mi Pay" uses NXP's embedded security chip (eSE) technology to provide the highest level of security protection for users' bank cards and bus card payments. Users can rest assured that China UnionPay card and bus card can be directly added to Xiaomi mobile phone MIUI system “Millet Wallet†App, which makes it unnecessary to carry wallets when going out, making daily payment easier, convenient and safe.
Previously, Xiaomi released a Xiaomi mobile phone using NXP's NFC and eSE solutions, and both parties promoted public mobile payment applications in China's top ten cities. Shanghai and Shenzhen, as the first cities to implement public transport mobile payment applications, have achieved double-digit growth in user activation rates since June this year. In early September, NXP and Xiaomi joined forces to further expand the “Millet Payment†bus card and bank card application in cities such as Beijing, Guangzhou, Wuhan and Suzhou.
“Currently in China and around the world, mobile payment has gradually become a natural part of people's lives. Xiaomi and NXP have cooperated in 2012 to promote the popularization of mobile innovation payment in China,†Xiaomi co-founder and MIUI head Hong Feng said, "Millet has more than 200 million network users worldwide, most of whom are young and are the backbone of China's mobile Internet. We believe NXP's NFC technology and eSE solutions are paired with Xiaomi's hardware and smooth MIUI. The system can provide consumers with a truly secure and convenient mobile payment experience."
Rafael Sotomayor, senior vice president and general manager of NXP Semiconductors, said: "The 15% and 20% increase in user activation rates in Shanghai and Shenzhen respectively shows consumers' preference for mobile payments. We look forward to introducing this application to China. More major cities. In this process, NXP's role has surpassed the pure hardware suppliers and is committed to working with partners to promote the overall development of the public transport system.
NXP's NFC and eSE solutions combine bus mobile payment transaction technology with a wide range of ecosystems to provide a foundation for smart mobile payments, more suitable for smart mobile lifestyles, in line with urban environmental protection concepts, and conducive to the construction of public transport facilities. Operation.
The solution is now available for the "Millet Payment" product used in the Xiaomi 5 smartphone. The built-in NXP NFC chip contains a separate security chip that has been proven to withstand invasive, semi-invasive and non-invasive The attack provides the highest level of data protection and encryption for end users, payment card dealers and handset manufacturers.
Reverse Conducting Thyristor(RCT)
Reverse Conducting Thyristor(RCT) is also called Reverse- appreciation Thyristor.The characteristic is that a diode is connected in reverse parallel between the anode and cathode of thyristor, so that the transmitting junction of anode and cathode is short-circuited.As a result of this special circuit structure, it has high voltage resistance, high temperature resistance, short turn-off time, low switching voltage and other good performance.For example, the turn-off time of the reverse thyristor is only a few microseconds, and the working frequency is dozens of KHZ, which is better than the fast thyristor (FSCR).This device is suitable for switching power supply and UPS uninterrupted power supply. One RCT can replace one thyristor and one continuous current diode respectively.
Reverse Conducting Thyristor,Original Reverse Conducting Thyristor,New Reverse Conducting Thyristor,Reverse-Conducting Thyristor 2200V
YANGZHOU POSITIONING TECH CO., LTD. , https://www.yzpst.com