Digital camcorder
A digital video camera, video camcorder, or digital camcorder is a device that records video to formats including Digital8, MiniDV, DVD, a hard drive, or solid-state flash memory. Some digital camcorders also have the capability of taking still pictures and storing on separate media, often the same type as used in digital cameras. While the image quality may not be quite as good as a standard digital camera, this allowed users to carry one device to record both video and still images. In the picture is an example of a digital camcorder.
Compared to analog camcorders, digital camcorders can record video at a higher resolution. Some digital camcorders can even record at high definition quality. Most digital camcorders today use either a hard drive or solid-state flash memory and record in formats like MPEG-1, MPEG-2 or MPEG-4. To get the recorded video onto a computer for editing and copying to a DVD, digital camcorders can be connected to a computer by use of a USB or FireWire cable. Digital camcorders can also be connected directly to a TV for video playback, using either composite video cables or HDMI on newer models.
Hard drive
A hard disk drive (sometimes abbreviated as a hard drive, HD, or HDD) is a non-volatile data storage device. It is usually installed internally in a computer, attached directly to the disk controller of the computer's motherboard. It contains one or more platters, housed inside of an air-sealed casing. Data is written to the platters using a magnetic head, which moves rapidly over them as they spin.
Internal hard disks reside in a drive bay, connected to the motherboard using an ATA, SCSI, or SATA cable. They are powered by a connection to the computer's PSU (power supply unit).
Examples of data that may be stored on a computer's hard drive include the operating system, installed software, and the user's personal files.
A computer requires an operating system to allow users to interact with and use it. The operating system interprets keyboard and mouse movements and allows for the use of software, like an Internet browser, word processor, and video games. To install a computer operating system, a hard drive (or another storage device) is required. The storage device provides the storage medium where the operating system is installed and stored.
A hard drive is also required for the installation of any programs or other files you want to keep on your computer. When downloading files to your computer, they are permanently stored on your hard drive or another storage medium until they are moved or uninstalled.
Without a hard drive, a computer can turn on and POST. Depending on how the BIOS is configured, other bootable devices in the boot sequence are also checked for the necessary boot files. For example, if the USB device is listed in your BIOS boot sequence, you can boot from a bootable USB flash drive in a computer without a hard drive.
Examples of bootable flash drives include a Microsoft Windows installation disk, GParted Live, Ubuntu Live, or UBCD. Some computers also support booting over a network with a PXE (preboot execution environment).
Modern computers often use an SSD (solid-state drive) as the primary storage device, instead of an HDD. HDDs are slower than SSDs when reading and writing data, but offer greater storage capacity for the price.
Although an HDD may still be used as a computer's primary storage, it has become more common for it to be installed as a secondary disk drive. For example, the primary SSD may contain the operating system and installed software, and a secondary HDD may be used to store documents, downloads, and audio or video files.
As can be seen in the picture above, the desktop hard drive consists of the following components: the head actuator, read/write actuator arm, read/write head, spindle, and platter. On the back of a hard drive is a circuit board called the disk controller or interface board. This circuit is what allows the hard drive to communicate with the computer.
All primary computer hard drives are found inside a computer case and are attached to the computer motherboard using an ATA, SCSI, or SATA cable. Hard drives are powered by a connection to the PSU (power supply unit).
A hard drive can be used to store any data, including pictures, music, videos, text documents, and any files created or downloaded. Also, hard drives store files for the operating system and software programs that run on the computer.
The hard drive is often capable of storing more data than any other drive, but its size can vary depending on the type of drive and its age. Older hard drives had a storage size of several hundred MB (megabytes) to several GB (gigabytes). Newer hard drives have a storage size of several hundred gigabytes to several TB (terabytes). Each year, new and improved technology allows for increasing hard drive storage sizes.
Data sent to and read from the hard drive is interpreted by the disk controller. This device tells the hard drive what to do and how to move its components. When the operating system needs to read or write information, it examines the hard drive's FAT (File Allocation Table) to determine file location and available write areas. Once they determined, the disk controller instructs the actuator to move the read/write arm and align the read/write head. Because files are often scattered throughout the platter, the head needs to move to different locations to access all information.
All information stored on a traditional hard drive, like the above example, is done magnetically. After completing the above steps, if the computer needs to read information from the hard drive, it would read the magnetic polarities on the platter. One side of the magnetic polarity is 0, and the other is 1. Reading this as binary data, the computer can understand what the data is on the platter. For the computer to write information to the platter, the read/write head aligns the magnetic polarities, writing 0's and 1's that can be read later.
Although most hard drives are internal, there are also stand-alone devices called external hard drives or portable hard drives that backup data on computers and expand the available space. External drives are often stored in an enclosure that helps protect the drive and allows it to interface with the computer, usually over USB, eSATA, or FireWire. An excellent example of an external backup device that supports multiple hard drives is the Drobo.
External hard drives come in many shapes and sizes. Some are large, about the size of a book, while others are about the size of a large smartphone. External hard drives can be very useful since they usually offer more space than a jump drive and are still portable. The picture is an example of a laptop hard disk drive enclosure from Adaptec. With this enclosure, the user installs a laptop hard drive of any storage capacity into the enclosure and connect it via USB port to the computer.
SSDs (solid-state drives) have started to replace HDDs (hard disk drives) because of the distinct performance advantages they have over HDD, including faster access times and lower latency. While SSDs are becoming more and more popular, HDDs continue to be used in many desktop computers largely due to the value per dollar that HDDs offer over SSDs. However, more and more laptops are beginning to utilize SSD over HDD, helping to improve the reliability and stability of laptops.
The first hard drive was introduced to the market by IBM on September 13, 1956. The hard drive was first used in the RAMAC 305 system, with a storage capacity of 5 MB and a cost of about $50,000 ($10,000 per megabyte). The hard drive was built-in to the computer and was not removable.
In 1963, IBM developed the first removable hard drive, having a 2.6 MB storage capacity.
The first hard drive to have a storage capacity of one gigabyte was also developed by IBM in 1980. It weighed 550-pounds and cost $40,000.
1983 marked the introduction of the first 3.5-inch size hard drive, developed by Rodime. It had a storage capacity of 10 MB.
Seagate was the first company to introduce a 7200 RPM hard drive in 1992. Seagate also introduced the first 10,000 RPM hard drive in 1996 and the first 15,000 RPM hard drive in 2000.
Both "hard disk drive" and "hard drive" are correct and mean the same thing. However, we recommend using the term "hard drive" in your writing or when describing a hard drive. The term "hard drive" helps to distinguish it from an SSD (solid-state drive), which contains no platters, disk-shaped components, or moving parts.