PCB
Connectors: Backplane, Wire-to-Board, Board-to-Board Connectors
These types of connector systems are
mounted or processed to a printed circuit board (PCB). There are a variety of PCB connectors and accessories best designed for specific uses. To name some, they include:Din41612 Connector,Board To Board Connectors,battery holders Clips Contacts,Future Bus Connectors,PLCC Connectors.
Din41612 Connector
Board To Board Connectors
Battery Holders Clips Contacts
Future Bus Connectors
PLCC Connectors
1.ANTENK manufactures a wide range of application specific board stacking PCB connectors which were designed and built to specific customer requirements. Our experienced staff has developed custom products in a variety of contact styles, pitches and stacking heights. Our designs range from new concepts to duplicating existing market products identically or with improvements. Many desigsn are produced using automated manufacturing processes to increase reliability and provide significant cost savings.
2.Our products are widely used in electronic equipments,such as monitors ,electronic instruments,computer motherboards,program-controlled switchboards,LED,digital cameras,MP4 players,a variety of removable storage disks,cordless telephones,walkie-talkies,mobile phones,digital home appliances and electronic toys,high-speed train,aviation,communication station,Military and so on
What is a PCB Connector?
Other names for PCB Connectors
PCB Connectors can be known as PCB Interconnect product. Specific terms are also used for the two sides of the connection. Male PCB Connectors are often referred to as Pin Headers, as they are simply rows of pins. Female PCB Connectors can be called Sockets, Receptacles, or even (somewhat confusingly) Header Receptacles.
Din41612 Connector,Board To Board Connectors,Battery Holders Clips Contacts,Future Bus Connectors,PLCC Connectors ShenZhen Antenk Electronics Co,Ltd , https://www.antenkcon.com
The industry is moving towards digital edge computing. This new architecture will more closely integrate network, computing, storage, and application on the edge of the network near the source or data source, and provide edge intelligence services nearby.
Don't underestimate the potential of this change. The industry is still unclear. In the evolution towards the Internet of Everything, how many application scenarios will use cloud computing in the future, and how many scenarios will distribute the calculations to the edge. With the potential complementarity and competitiveness of cloud computing, who will rise and fall under the new technology architecture and new gameplay in the future? Everything is possible.
Not all cloud computing needs <br> <br> digital wave is sweeping across almost all traditional industries, it changed the way we communicate, travel mode, changing the education, health care, infrastructure technology services ...... a variety of traditional digitizing behind the cloud Computing, almost all data needs to be connected to the cloud, and then connected to each other through the network through cloud storage, computing. However, cloud computing may not be the only path for future industries to move toward digitization.
In fact, with the evolution of PC Internet and mobile Internet to the Internet of Everything, how to transmit and process massive amounts of data has already presented a major challenge to the current cloud computing technology architecture. 
"Our original idea has always wanted to send it (Internet of Things) to the cloud, but compared to the current data nodes of the Internet, the Internet of Things will be its growth of more than three orders of magnitude. It depends entirely on this (send to the cloud) vertical The connection is actually very difficult to implement, so we need to consider processing at the edge level," said Yu Haibin, director of the Shenyang Institute of Automation, Chinese Academy of Sciences, who is engaged in industrial automation research.
Cloud computing unifies the Internet, and in the industrial field, OT (Operation Technology), another computing system may be urgently needed.
"Traditional cloud computing can point to a button, and the background operation will give you the response. In edge computing, many applications need to respond in real time between milliseconds. If real-time is implemented, we can't send everything to the cloud. Because the cloud may be thousands of kilometers away, the delay jitter and distance are not controllable," said Liu Shaowei, president of Huawei's network R&D department.
However, edge computing is not a computing architecture that is completely opposite to cloud computing. Some experts believe that in some application scenarios, analysis can be done at the edge, and in-depth analysis is also done in the cloud to make the two grow their strengths. . After all, the edge of computing power of the cloud is unmatched.
“I went to Boston recently, and my friends went to the scene where there was an explosion. There, they did intelligent analysis through the front end, and then sent the valid data after the simple analysis of the suspect to the back end. This is very good. For example, explain how to use cloud and end cooperation to complement each other.†Fang Fahe, executive vice president of iSoftStone.
The giants have joined forces to open up new space in the market. "What will happen to the edge of the future? Sometimes it is hard to imagine. But at least according to our judgment, the demand for manufacturing has reached a stage where the product life cycle is getting shorter and shorter. Personalized demand is getting higher and higher, and the trend of life cycle management and service is becoming more and more obvious," Yu Haibin said.
It is the pull of the industry's digital reality needs that drives the fundamental technology to accelerate change. "We always say that one step ahead is advanced, and three steps ahead become a martyr." Liu Shaowei said.
Some large companies have already tried their own edge computing in the field of Internet of Things. For example, Huawei cut into the power, elevator and other industries, Intel has also entered the industrial and Internet of Things field through embedded computing.
"There are more than 15 million elevators in the world, but some of them are not working properly every day. With the Internet of Things, their efficiency can be increased by more than 50%, and the failure rate is greatly reduced, bringing practical economic and social benefits." Liu Shaowei said. He also took the Nigerian power industry as an example, through digital transformation, which said that it helped the African power to increase electricity production efficiency by 30%.
Chip companies such as Intel and ARM also hope that edge computing will expand into the Internet of Things. “The next step is whether IT and OT are integrated. This is a very exciting opportunity,†said Chen Wei, general manager of Intel’s IoT Division China.
In the future, the entire edge computing industry may be a market with a trillions of dollars, but no one can accurately estimate its market capacity because the market is too large, and there are too many industries involved and digital companies.
“The power IoT market did not seem to be very big before, especially the communication. But we have made a special investigation and found that the communication network has about $5 billion in space in the field of power Internet of Things. This is just the network market for electricity. However, if it is extended, in the power industry alone, there are four links: power generation, transmission, distribution, and electricity use," said Liu Shaowei.
"We hope not only that there are new points, but also that we want to turn the points into lines, turn the lines into faces, and turn the faces into bodies." Yu Haibin said in an interview with reporters that the existing chips, switches, and computing output can There is a lot of expansion, he is not good at calculating, but "for the transformation of technology, linear projection may not count, we often refer to 'exponential growth', but after the 'exponential growth' after the reserve period, growth is difficult Accurately predicted, can only say high-speed growth."
Liu Shaowei said that the potential huge market in the future is not a company or a few companies can monopolize, because the digitization of many industries requires the deep participation of many traditional fields. “It’s not like a company can do everything in the past, especially It is the case of industrial digitalization. It involves different fields and involves the support of information technology and communication technology. In fact, everyone needs to cooperate with each other and cooperate with each other to solve the problem."
At the same time, big technology companies also hope to accelerate the market's maturity through alliances and find a more suitable position for themselves. Recently, companies such as Huawei, Intel, and ARM have established such an alliance. In the opinion of some technical experts, many companies have previously tried their own technical attempts and will further standardize through alliances to accelerate the maturity of the industry.
For the future, one consensus is that the edge calculation is called the edge. In fact, the influence of technology and the potential market size may not be marginal.
(Original title: Edge computing surfaced only knows that cloud computing is not enough)
Printed Circuit Board connectors are connection systems mounted on PCBs. Typically PCB Connectors are used to transfer signals or power from one PCB to another, or to or from the PCB from another source in the equipment build. They provide an easy method of Design for Manufacture, as the PCBs are not hard-wired to each other and can be assembled later in a production process.
PCB Connector orientations
The term PCB Connector refers to a basic multipin connection system, typically in a rectangular layout. A mating pair of PCB Connectors will either be for board-to-board or cable-to-board (wire-to-board). The board-to-board layouts can give a range of PCB connection orientations, all based on 90 degree increments:
Parallel or mezzanine – both connectors are vertical orientation;
90 Degree, Right Angle, Motherboard to Daughterboard – one connector is vertical, one horizontal;
180 Degree, Coplanar, Edge-to-Edge – both connectors are horizontal orientation.
As many industries move toward digitalization, our storage and computing are increasingly dependent on the cloud, and the cloud becomes a hub for building an information society. However, a joint effort from industry and academia is also trying to create a new architecture called edge computing outside the cloud computing industry. In 2020, an estimated 50 billion devices will be connected to the network. According to the latest ITU report, the amount of data created per second per person in 2020 will reach 1.7M. "In the face of such excessive data, we need to consider whether to adopt the traditional cloud computing method or consider another way?" said He Yuanyuan, chief engineer of the Institute of Technology Standards, China Information and Communication Research Institute.