Ceramic Shield.Materially stronger. Nanoscale. ceramic crystals
Enter Ceramic Shield. It’s made by introducing nano‑ceramic crystals — which are actually harder than most metals — into glass. Sounds simple, but it’s incredibly difficult because most ceramics aren’t transparent. By controlling the type of crystals and degree of crystallinity, we developed an exclusive formula that maximizes the toughness of the ceramic while remaining optically clear. This was the breakthrough that made Ceramic Shield ideally suited for the display. It’s a first in any smartphone, and it’s tougher than any smartphone glass.
Dual ion-exchange. process
Tough is great, but we also wanted to make it scratch-resistant. So, using our dual ion-exchange process we use on the back glass, we protect against nicks, scratches, and everyday wear and tear.
4x better drop. performance
Beyond Ceramic Shield, there’s one more thing that contributes to the durability of the front cover. It sits flush to the edge of the phone, which helps protect it even more. Altogether, we’ve quadrupled the drop performance — the largest year-over-year improvement ever for iPhone.
Superfast wireless Hello 5G.
5G transforms iPhone with accelerated wireless speeds and better performance on congested networks.5 Now you can download huge files on the go or stream high-quality HDR movies. Without. All. The. Lag. iPhone also has the most 5G bands of any smartphone so you get 5G in more places. And all that speed opens up amazing possibilities for the future of apps.
Designing iPhone for 5G
We engineered custom antennas and radio components for high sensitivity and incredible efficiency. Then we gave iPhone 12 Pro the most 5G bands of any smartphone, so you’ll get 5G in more places.
Software optimization
We looked at our entire software stack — from applications to system level frameworks — and optimized it to take advantage of 5G. For example, many apps will benefit from 5G without using additional power.
A14 Bionic The only thing even close was our last chip.
A14 Bionic is the first 5-nanometer chip in the industry, with advanced components literally atoms wide. Forty percent more transistors rev up speeds while increasing efficiency for great battery life. And a new ISP powers Dolby Vision recording — something no pro movie camera, let alone any other phone, can do.
The fastest chip ever in a smartphone. Again.
The new capabilities of iPhone 12 Pro require speed. Lots of it. And one way to make a chip faster is to add more transistors, meaning you have to make the chip bigger or the transistors smaller.
4K HDR recording with Dolby Vision
What does all this mean for you? A ton. Big performance gains across the board. Smart HDR 3 for more true-to-life photos. Improved detail in high-quality video, thanks to advanced temporal noise reduction on the new Image Signal Processor. And Dolby Vision that’s actually encoded while you shoot — instead of by pro computers in an editing studio. There’s never been anything like A14 Bionic, and we can’t wait to see all the incredible things you’ll do with it.
El MTX88 es la versión de ocho zonas de la serie MTX, que contiene dos entradas de micrófono balanceadas con función de prioridad, posibilidad de alimentación fantasma y control de tono de tres bandas. Se proporcionan cuatro entradas estéreo de nivel de línea a las que se puede conectar cualquier fuente de música de nivel de línea, como un reproductor de CD, un sintonizador o un reproductor de MP3, etc. Las otras dos entradas de la matriz son las entradas adicionales del panel de pared para señales de línea y de micrófono. El MTX se puede controlar mediante paneles de control adicionales, su interfaz web totalmente funcional o la aplicación remota para iPhone/iPad. El puerto RS232 hace que el MTX sea compatible con cualquier sistema de automatización doméstica e industrial que admita RS232. El panel frontal del MTX muestra un botón giratorio por zona con LED de indicación para acceder a controles y configuraciones. Un altavoz PFL incorporado permite escuchar previamente cada canal sin necesidad de auriculares. Las conexiones de salida de zona balanceada a nivel de línea se realizan mediante conectores de bloque de terminales europeos de 3 pines, cada uno de ellos acompañado de un conector RJ45 para conectar paneles de pared adicionales para esa zona. Una conexión de alimentación de 24 voltios permite mantener el MTX funcionando con energía de emergencia, incluso si se corta la energía principal.
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