AudioOscillator Merupakan produk dari perusahaan Hewlett Packard yang pertama. Produk ini digunakan oleh Walt Disney Studios dalam pembuatan filmnya yang berjudul Fantasia. Audio Modem Riser Sebuah kartu plug-in untuk motherboard Intel yang memuat sirkuit audio dan atau sirkuit modem. AMR memuat fungsi-fungsi analog (kode-kode) yang dipelukan Apapun genre nya, semua orang pasti tahu apa itu video dan pernah menyaksikannya. Video secara garis besar terdiri atas dua jenis, yaitu video analog dan video digital. Mengikuti perkembangan zaman, mari kita bahas tentang macam-macam video digital, video yang banyak diminati oleh millennials. Macam Video Menurut Jenisnya Analogformat yang terdiri dari standar VHS,VHS-C, Super VHS, Super VHS-C, 8mm, Hi-8 Digital format yang terdiri dari MiniDV,Digital8, DVD Komputer yang dianjurkan untuk editing video terdiri dari : PC sekelas P4 atau AMD Athlon, sebaiknya menggunakan teknologi Hyper Trading. Fast Money. In the middle of the era where all video is digital, many of you will wonder what the point of knowing analog video. The answer? Digital video appeared yesterday afternoon in regard to the history of audiovisual content, so a large amount of video content is in analog format and is therefore a very important weight in the history of cinema and not forget that human beings experience the world around us in analog format. So in your day to day you capture reality in analog format. But what do we mean by analog? In the digital world when data is transmitted they do so as a succession of binary signals, two values, but when the data is analog then this signal can have any we took the analog signal and digitized it into a digital signal with a very low amount of data then we would not get a sine wave but a square wave. For example the sound called “8 bits” is nothing more than the square wave simplification of the different notes. How then is it possible to digitize a digital signal? Well, adding a greater amount of value changes over time, to bring the signal as closely as possible to the analog when digitizing data, if we want to achieve greater fidelity to reality in a digital system, and therefore a closer approach to reality, then we need a greater amount of data. Hence, the use of video will begin to emerge with 32-bit processors, since they could work with sufficient precision on the do I get the digital video to the PC?The first video digitizer to be used in a computer did not appear for the PC, but for the Commodore Amiga, which arrived in 1990 with New Tek’s Video Toaster. An expansion card that was precisely in charge of taking the NTSC signal and digitizing it for later manipulation, with this the possibility of editing analog video in real time was the collapse of the Commodore Business Machines bankruptcy in 1994 and with the Apple Macintosh being a niche, then all the interest in multimedia turned to the PC where a version of Video Toaster was released, as well as some cards for processing video by part of various brands, all of them based on the use of digital signal processors or DSP, which were added in the first PCs with multimedia capabilities to be able to efficiently treat this volume of data, apart from being able to encode and decode video in real time, the arrival of increasingly powerful processors and digital video ended up eliminating the need to use this type of card for digital video manipulation, which led to the appearance of non-professional programs in the style of iMovie from Apple or Microsofts Windows Movie do I replace analog video to digital?There are three main advantages to digital video over analog video, which have given it dominance in the market over analog video, which has become a relic in history. All three have completely changed the way video is produced, distributed and to process data in real timeThe first of all is that it allows the manipulation of the data by a processor with the ability to manipulate data in digital format, that is, in binary. Which has a series of clear consequences if we take into account that through a processor or CPU we can manipulate them. This allows video editing, in real time and access to any of you who have edited video using analog tape format, you will remember how one hour in analog television resolution required 13 GB of information that had to be dumped from the DV tape to the PC storage disk, so that the CPU could access the timeline. This was impossible to do on tape to catalog and distribute dataThe second is the ability to use metadata, which is data about the data. For example, the metadata for a music file is things like artist name, album, date, genre, and so of the same type can be applied for video files. Which allows us to organize searches through those metadata or keywords. If that data is also in the cloud, then we can set up a digital streaming platform in which to distribute content all over the world. So without digitization we would not have platforms like Netflix, Twitch, Amazon Prime, YouTube, other point is that we can distribute any data in binary, and therefore that has been previously digitized, through the internet. What has allowed the creation of new business quality does not degradeThe third reason has to do with the adoption of digital formats, the first digital format being the Laser-Disc, which was the true predecessor of DVD. The Laser-disc was not very successful for the cost of its players, but its video quality did not degrade as it happened with the video tapes used to store analog video, which over time have had to be digitized. and in some cases it has been too late and they have been lost the digital video boom did not come until the 2000s, a period when real-time video decoding was so cheap in terms of processing that a simple decoder chip cost a few the optical disc formats for movies are about to disappear, replaced by the breakthrough innovation that has been digital video streaming. The demand in addition to series on demand not only new but old has accelerated that many analog videos stored in the archives of many film production companies are digitized. Semakin majunya teknologi membuat kita lebih mudah untuk melakukan sesuatu. Contoh saja dalam menikmati tontonan. Dulu ketika belum ada android kita hanya bisa melihat video dalam format 3gp saja di ponsel kesayangan kita karena keterbatasan memori. Tapi kini ada banyak format video yang bisa kita tonton melalui HP, seperti mp4, avi, mkv, dan masih banyak lagi. Nah, berbicara tentang format video, sebenarnya apa sih beda dari setiap format yang ada? Untuk menjawab pertanyaan ini, Brobali sudah menuliskan mengenai penjelasan macam-macam format video digital yang ada saat ini. Secara garis besar, format video dibagi menjadi beberapa jenis, diantaranya; 1. Video analog format encoding NTSC, PAL, SECAM, RF, Composite Video, Component Video, S-Video, dan RGB. 2. 2. Video analog format kaset Ampex, VERA BBC, U-matic, Betamax, Betacam, Betacam SP, VHS, S-VHS, VHS-C, Video 2000, 8mm tape, dan Hi8. 3. Video digital format kaset D1, D2, D3, D4, D5, Digital Betacam, Betacam IMX, D-VHS , DV, MiniDV, MicroMV, dan Digital8. 4. Disk optik format penyimpanan VCD, DVD, dan LaserDisk. 5. Video digital terpilih format encoding CCIR 601, MPEG-2, dan Tapi yang akan kita bahas kali ini adalah format file video yang sering kita jumpai di ponsel dan beberapa di PC. Di bawah ini adalah macam-macam format video yang dapat kita jumpai dan kita buka di ponsel AVI Audio Video Interleaved *.avi Yaitu jenis format video yang dapat menyesuasikan format audio/suara dengan alat pemutar video. VCD Video *mpg Format .mpg umumnya digunakan untuk transfer kualitas rendah CAM / TS / TC / Screener VHS / TVrip analog untuk membuat ukuran file yang lebih kecil, format video VCD. MOV *.mov MOV merupakan format video Apple Quick time banyak digunakan untuk pengiriman melalui jaringan internet, dan dapat menyesuaikan dengan berbagai bentuk/jenis format video lain. MPEG 4 *.mp4 Ini dia jenis format video yang sudah tidak asing bagi kita, format mp4 ini sudah dicompress diperkecil untuk standard jaringan penyiaran dan komunikasi video dengan ukuran data yang kecil tetapi mempunyai kualitas gambar yang cukup baik. WMV Window Media Video *.wmv WMV merupakan pengembangan dari bentuk format video ASF, banyak digunakan pada pengiriman lewat jaringan. 3GPP/3GP 3rd Generation Partnership Project *.3gp dan MP4 *.mp4 3GP adalah jenis format video untuk multi media. Matroska Video *.mkv MKV cukup banyak digunakan karena banyaknya media berupa perangkat pemutar video yang menyajikan teknologi dengan kualitas High Definition HD. Baca Juga Perbedaan Mp3 dan Mp4 Penjelasan Seluruh Format Gambar 1 Mb Berapa Kb? Ini Penjelasannya Itulah macam-macam format video yang sering kita jumpai, untuk saat ini cukup itu dulu ya guys. Nanti kedepannya akan kami update kembali, jadi jangan lupa bookmark Brobali agar tidak ketinggalan update terbarunya. foto by Analog or Digital Video What's the difference? The analog process encodes video and audio in complete frames modulation, with the receiving device interpreting and translating the signal into video and audio on a monitor de-modulation. This process can introduce a progressive loss of data leading to a general loss of video quality. NTSC can only deliver 720 pixels wide video or stills from video. Digital video, or DV, on the other hand, remains digital such as '0's and '1's with the data describing the colors and brightness of each video frame. On the receiving end of this data transmission, there is no translation or interpretation, just the delivery of pure data. The consistency of delivery is the crucial advantage that digital video has over analog video when it comes to working with images on a PC. As opposed to NTSC, there is no limit to resolution so images or movies as wide as 4000 pixels are easily obtainable with the digital cameras we sell for microscopy. When introduced in 1995, Firewire, one of many electronic protocols for A/V also referred to as iLink, IEEE1394 or 1394, provided both the transfer speed, at 400Mpbs, and the consistency needed to allow the average user to edit video on their PC. What About USB In the past, there was a clear distinction between USB and Firewire. USB could not transfer high quality DV; loosely defined as 25 frames per second fps with each frame being 640x480 resolution, due to transfer limit of around 11Mbps or around per second. Transferring DV requires a transfer rate of at least per second, which at the time left Firewire as one of few options due to its ability to work at 400Mbps, or up to around 50MB per second. Then along came USB with a "published" transfer rate of 480Mbps or 60MB per second. Not to be left behind by Wintel, at least on paper, Firewire800 or IEEE1394b was introduced. The new standard also provided for even faster and transfer rates across 100 meters of copper twisted pair wires. At first glance, it appears that USB is faster than Firewire400; however speed is not the only issue when it comes to DV. One of the worst issues with USB is that it cannot guarantee a sustained data transfer rate. This is due to USB adopting a "master-slave" topology, which means it needs the computer's CPU to coordinate data transfers. While this not usually a problem for low demand peripherals such as webcams, scanners, printers, etc., digital video requires dependable high-performance to avoid dropping video frames. Firewire was designed from the beginning as a real time protocol. Firewire also works in a peer-to-peer topology. As a result, many professional DV users can download their video clips from a DV camcorder directly to a hard drive without the use of a PC. More importantly, Firewire delivers data consistently at a specified high rate. If you want to do serious work with video, even to edit a family movie, it is best to go with Firewire. What does Meiji recommend for microscopy? Analog CCD cameras are still the best way to go if you want to use a video projector or a big screen TV or monitor like in classroom or training situations. To work with high-resolution digital video or digital still images for print publication, then our CMOS or CCD Digital Video Cameras are the best choice. Digital video cameras that use are fine for work done with microscopes because videos captured on microscopes are relatively short clips in duration. Also when using a video system, we suggest using a newer, fast computer with no other applications or TSR's running in the background or better yet, using a dedicated computer to do microscope video imaging. is found on all new PC or Macintosh type computers, whereas Firewire is typically an add-on card for most PC's. All Meiji Techno Digital Video Cameras use with no current plans for Firewire cameras. Firewire is native to most Macintosh computers so finding a Firewire camera is probably the best way to go if you are a Mac user.

format video analog dan video digital