Analog and digital Camcorders are often classified by their
storage device;
VHS,
VHS-C,
Betamax,
Video8 are examples of late 20th century
videotape-based camcorders which record
video in analog form.
Digital video camcorder formats include
Digital8,
MiniDV,
DVD,
hard disk drive,
direct to disk recording and solid-state, semiconductor
flash memory. While all these formats record video in
digital form, Digital8, MiniDV, DVD and hard-disk drives have no longer been manufactured in consumer camcorders since 2006. In the earliest analog camcorders the imaging device is
vacuum-tube technology, in which the charge of a light-sensitive target was directly proportional to the amount of light striking it; the
Vidicon is an example of such an imaging tube. Newer analog, and digital camcorders use a solid-state
charge-coupled imaging device (CCD) or a
CMOS imager. Both are analog detectors, using photodiodes to pass a current proportional to the light striking them. The current is then digitised before being electronically
scanned and fed to the imager's output. The main difference between the two devices is how the scanning is done. In the CCD the diodes are sampled simultaneously, and the scan passes the digitised data from one register to the next. In CMOS devices, the diodes are sampled directly by the scanning logic. Digital video storage retains higher-quality video than analog storage, especially on the prosumer and strictly consumer levels. MiniDV storage allows full-resolution video (720x576 for
PAL, 720x480 for
NTSC), unlike analog consumer-video standards. Digital video does not experience
colour bleeding, jitter, or fade. Unlike analog formats, digital formats do not experience
generation loss during
copying; however, they are more prone to complete loss. Although digital information can theoretically be stored indefinitely without deterioration, some digital formats (like MiniDV) place tracks only about 10
micrometers apart (compared with 19–58 μm for VHS). A digital recording is more vulnerable to wrinkles or stretches in the tape which could erase data, but
tracking and error-correction code on the tape compensates for most defects. On analog media, similar damage registers as "noise" in the video, leaving a deteriorated (but watchable) video. DVDs may develop
DVD rot, losing large chunks of data. An analog recording may be "usable" after its storage media deteriorates severely, but slight media degradation in digital recordings may trigger an "all or nothing" failure; the digital recording will be unplayable without extensive restoration.
Recording media Older digital camcorders record video onto tape digitally,
microdrives, hard drives, and small
DVD-RAM or
DVD-Rs. Newer machines since 2006 record video onto
flash memory devices and internal
solid-state drives in
MPEG-1,
MPEG-2 or
MPEG-4 format. Because these
codecs use
inter-frame compression, frame-specific editing requires frame regeneration, additional processing and may lose picture information. Codecs storing each frame individually, easing frame-specific scene editing, are common in professional use. Other digital consumer camcorders record in
DV or
HDV format on tape, transferring content over
FireWire or
USB 2.0 to a computer where large files (for DV, 1 GB for 4 to 4.6 minutes in
PAL/
NTSC resolutions) can be
edited, converted and recorded back to tape. The transfer is done in
real time, so the transfer of a 60-minute tape requires one hour to transfer and about 13 GB of disk space for the raw footage (plus space for
rendered files and other media).
Tapeless A tapeless camcorder is a camcorder that does not use
video tape for the
digital recording of
video productions as 20th century ones did. Tapeless camcorders record video as digital
computer files onto
data storage devices such as
optical discs,
hard disk drives and solid-state
flash memory cards. Inexpensive
pocket video cameras use flash
memory cards, while some more expensive camcorders use
solid-state drives or SSD; similar flash technology is used on semi-pro and high-end
professional video cameras for ultrafast transfer of
high-definition television (HDTV) content. Most consumer-level tapeless camcorders use
MPEG-2,
MPEG-4 or its derivatives as
video coding formats. They are normally capable of still-image capture to
JPEG format additionally. Consumer-grade tapeless camcorders include a
USB port to transfer video onto a computer. Professional models include other options like
Serial digital interface (SDI) or
HDMI. Some tapeless camcorders are equipped with a
FireWire (IEEE-1394) port to ensure compatibility with
magnetic tape-based
DV and
HDV formats.
Consumer market Since the consumer market favors ease of use, portability and price, most consumer-grade camcorders emphasize handling and automation over audio and video performance. Most devices with camcorder capability are
camera phones or
compact digital cameras, in which video is a secondary capability. Some pocket cameras, mobile phones and camcorders are shock-, dust- and waterproof. The consumer camcorder was generally still very expensive throughout the early to mid 1990s, but prices compared to the 1980s had halved for an entry-level model and fell even further at the turn of the millennium, placing them in easier reach of basic-income consumers with the addition of available and more easy to obtain credit to spread payments. This market has followed an evolutionary path driven by miniaturization and cost reduction enabled by progress in design and manufacture. Miniaturization reduces the imager's ability to gather light; designers have balanced improvements in sensor sensitivity with size reduction, shrinking the camera imager and optics while maintaining relatively noise-free video in daylight. Indoor or dim-light shooting is generally quiet, and in such conditions artificial lighting is recommended. Mechanical controls cannot shrink below a certain size, and manual camera operation has given way to camera-controlled automation for every shooting parameter (including focus, aperture, shutter speed and color balance). The few models with manual override are menu-driven. Outputs include USB 2.0, Composite and S-Video and IEEE 1394/FireWire (for MiniDV models). The high end of the consumer market emphasizes user control and advanced shooting modes. More-expensive consumer camcorders offer manual exposure control, HDMI output and external audio input, progressive-scan
frame rates (24fps, 25fps, 30fps) and higher-quality lenses than basic models. To maximize low-light capability, color reproduction and frame resolution, multi-CCD/CMOS camcorders mimic the 3-element imager design of professional equipment. Field tests have shown that most consumer camcorders (regardless of price) produce noisy video in low light. Before the 21st century,
video editing required two recorders and a
desktop video workstation to control them. A typical home
personal computer can hold several hours of standard-definition video, and is fast enough to edit footage without additional upgrades. Most consumer camcorders are sold with basic
video editing software, so users can create their own DVDs or share edited footage online. Since 2006, nearly all camcorders sold are digital. Tape-based (MiniDV/HDV) camcorders are no longer popular, since tapeless models (with an SD card or internal SSD) cost almost the same but offer greater convenience; video captured on an SD card can be transferred to a computer faster than digital tape. None of the consumer-class camcorders announced at the 2006 International
Consumer Electronics Show recorded on tape.
Interchangeable lenses Interchangeable-lens camcorders can capture HD video with DSLR lenses and an adapter.
Built-in projector In 2011, Sony launched its HDR-PJ range of HD camcorders: the HDR-PJ10, 30 and 50. Known as
Handycams, they were the first camcorders to incorporate a small
image projector on the side of the unit. This feature allows a group of viewers to watch video without a television, a full-size projector or a computer. These camcorders were a huge success and Sony subsequently released further models in this range. Sony's 2014 line up comprises the HDR-PJ240, HDR-PJ330 (entry-level models), HDR-PJ530 (mid-range model) and the HDR-PJ810 (top of the range). Specifications vary by model. == Uses ==