In the early 1990s, IBM engineer Frank Canova realised that chip-and-wireless technology was becoming small enough to use in handheld devices. 75.05 percent of the world population were smartphone users as of 2020. In 2022, 1.43 billion smartphone units were shipped worldwide. Improved hardware and faster wireless communication (due to standards such as LTE) have bolstered the growth of the smartphone industry. Smartphones have largely replaced personal digital assistant (PDA) devices, handheld/palm-sized PCs, portable media players (PMP), and, to a lesser extent, handheld video game consoles. More recently, smartphone manufacturers have begun to integrate satellite messaging connectivity and satellite emergency services into devices for use in remote regions where there is no reliable cellular network.įollowing the rising popularity of the iPhone in the late 2000s, the majority of smartphones have featured thin, slate-like form factors with large, capacitive screens with support for multi-touch gestures rather than physical keyboards and have offered the ability for users to download or purchase additional applications from a centralized store and use cloud storage and synchronization, virtual assistants, as well as mobile payment services. Smartphones typically contain a number of metal–oxide–semiconductor (MOS) integrated circuit (IC) chips, include various sensors that can be leveraged by pre-installed and third-party software (such as a magnetometer, a proximity sensor, a barometer, a gyroscope, an accelerometer, and more), and support wireless communication protocols (such as Bluetooth, Wi-Fi, or satellite navigation). They are distinguished from older-design feature phones by their stronger hardware capabilities and extensive mobile operating systems, which facilitate wider software, access to the internet (including web browsing over mobile broadband), and multimedia functionality (including music, video, cameras, and gaming), alongside core phone functions such as voice calls and text messaging. Everything is subject to change.A person using a Samsung Galaxy S3 smartphone.Ī smartphone is a portable computer device that combines mobile telephone functions and computing functions into one unit. * Tech specs reflect both current and projected information. For more information on compatible accessories, go to red.com/third-party-accessories RED Control works wirelessly or wired via the KOMODO Link Adaptor (sold separately).ġ. Wireless live preview video feed via 2.4Ghz/5Ghz WiFi for framingĪccess full camera controls and live preview from iOS or Android(coming soon) devices.Īvailable from the Apple App Store and Google Play Store. Integrated 2.9" 1440x1440 touchscreen LCD with preview and camera control SMPTE Timecode, HANC Metadata, 24-bit 48 kHz Audio Wired control via KOMODO Link Adaptor, using USB-C or Gigabit Ethernet (compatible USB-C to Ethernet adapter1 required) allowing camera control and live MJPEG preview video feed ![]() Genlock, Timecode-in, GPIO and Ctrl (RS232) via the integrated 9-pin EXT Port WiFi for camera control via interchangeable antenna with SMA connection Integrated dual channel digital mono microphones, uncompressed, 24-bit 48 kHzĪdditional dual channel via integrated 3.5mm audio jack, uncompressed, 24-bit 48 kHz +7 to +17 V DC via the integrated 2-pin DC-IN port ![]() REDCODE HQ, MQ and LQ at 4K 17:9 (4096 x 2160) up to 60 fps REDCODE HQ, MQ and LQ at 6K 17:9 (6144 x 3240) up to 40 fps Up to 280 MB/s using RED Pro CFast or other qualified CFast 2.0 media cardsĢ3.98, 24, 25, 29.97, 30, 50, 59.94, 60 fps, all resolutions See Lens Compatibility List for more details Supports Canon EF with full electronic communication via compatible Canon RF Mount Adapters KOMODO ® 19.9 MP Super 35mm Global Shutter CMOSĪccepts Canon RF Mount Based Lenses and Adapters.
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