Texas Instruments helps Bitcoin mining machine power supply With the rise of virtual currency, the "mining machine" computer host equipment optimized and customized for virtual currency algorithm has set off a wave of enthusiasm. Since the second half of 2017, the price of Bitcoin has soared, which has also pushed up the market of mining machines. The booming mining machine business has also created the demand for mining machine power supplies, especially the demand for 1kW~3kW high-efficiency power supplies. 〉〉〉Click to view detailsIntelligent Control Active Clamp Flyback When I first started cooking, I would rather be alone, thinking that other people in the kitchen would distract me. But as I started trying more complex recipes with multiple cooking steps, I found that having a helper was very useful and the cooking experience was more fun. As the saying goes: If you can't beat 'em, join 'em. 〉〉〉Click to view detailsInnovative Application of Capacitive Touch Buttons in the Elevator Industry In the elevator industry, pushbutton switches are used in the control panel of the control box in the car and the call board installed on each floor. The buttons are required to have the characteristics of high reliability, anti-interference, long life, easy to use and beautiful appearance. Currently, most of them use mechanical buttons. 〉〉〉Click for detailsTexas Instruments and Amazon Web Services Collaborate to Create End-to-End Cloud Connectivity for Intelligent Automation [img]https://e2echina.ti.There will be a lot of new developments in the next generation of industrial infrastructure. Creating stable and reliable devices for the Internet of Things (IoT) requires more than just wireless network connections. To guide the intelligent devices that drive everything from road sensors to power turbines, cloud capabilities, flexibility, remote management and high security are required. According to Gartner, there are more than 8.4 billion "things" on the Internet today, an increase of more than 30% over the past year. 〉〉〉Click to view detailsTI High-Speed Signal Conditioning Product Selection Guide With the increase of communication capacity, the speed supported by device ports is getting higher and higher, from the common single-port 10Gbps and 25Gbps*4 in the 4G era to the single-port 25Gbps, even 50Gbps, and 56Gbps*8 400G applications that will be deployed in the 5G era. This will inevitably put forward higher requirements for circuit design. In order to compensate for the loss of high-speed signals on PCB boards and improve the quality of signals, high-speed signal conditioning chips are usually added to the link. 〉〉〉Click to view detailsTips for Effectively Reducing Conducted and Radiated Interference Electromagnetic interference (EMI) in design has always been a headache, especially in the automotive field. In order to reduce EMI as much as possible, designers usually reduce the noise source by reducing the loop area of high di/dt and the switching conversion rate when designing schematics and drawing layouts. 〉〉〉Click for details There will be a lot of new developments in the next generation of industrial infrastructure. Creating stable and reliable devices for the Internet of Things (IoT) requires more than just establishing wireless network connections. To guide the intelligent devices that drive everything from road sensors to power turbines, cloud capabilities, flexibility, remote management and high security are required. According to Gartner, there are more than 8.4 billion "things" on the Internet today, an increase of more than 30% year-on-year. 〉〉〉Click to view detailsTI High-Speed Signal Conditioning Product Selection Guide With the increase of communication capacity, the speed supported by device ports is getting higher and higher, from the common single-port 10Gbps and 25Gbps*4 in the 4G era to the single-port 25Gbps, even 50Gbps, and 56Gbps*8 400G applications that will be deployed in the 5G era. This will inevitably put forward higher requirements for circuit design. In order to compensate for the loss of high-speed signals on PCB boards and improve the quality of signals, high-speed signal conditioning chips are usually added to the link. 〉〉〉Click to view detailsTips for Effectively Reducing Conducted and Radiated Interference Electromagnetic interference (EMI) in design has always been a headache, especially in the automotive field. In order to reduce EMI as much as possible, designers usually reduce the noise source by reducing the loop area of high di/dt and the switching conversion rate when designing schematics and drawing layouts. 〉〉〉Click for details There will be a lot of new developments in the next generation of industrial infrastructure. Creating stable and reliable devices for the Internet of Things (IoT) requires more than just establishing wireless network connections. To guide the intelligent devices that drive everything from road sensors to power turbines, cloud capabilities, flexibility, remote management and high security are required. According to Gartner, there are more than 8.4 billion "things" on the Internet today, an increase of more than 30% year-on-year. 〉〉〉Click to view detailsTI High-Speed Signal Conditioning Product Selection Guide With the increase of communication capacity, the speed supported by device ports is getting higher and higher, from the common single-port 10Gbps and 25Gbps*4 in the 4G era to the single-port 25Gbps, even 50Gbps, and 56Gbps*8 400G applications that will be deployed in the 5G era. This will inevitably put forward higher requirements for circuit design. In order to compensate for the loss of high-speed signals on PCB boards and improve the quality of signals, high-speed signal conditioning chips are usually added to the link. 〉〉〉Click to view detailsTips for Effectively Reducing Conducted and Radiated Interference Electromagnetic interference (EMI) in design has always been a headache, especially in the automotive field. In order to reduce EMI as much as possible, designers usually reduce the noise source by reducing the loop area of high di/dt and the switching conversion rate when designing schematics and drawing layouts. 〉〉〉Click for details com/blogs_/b/analogwire/archive/2018/03/06/52811]〉〉〉Click to view details[/url]
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