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VHS-C
VHS-C
is the compact VHS
VHS
videocassette format, introduced by Victor Company of Japan (JVC) in 1982,[1] and used primarily for consumer-grade compact analog recording camcorders. The format is based on the same video tape as is used in VHS, and can be played back in a standard VHS
VHS
VCR with an adapter.[2] Though quite inexpensive, the format is largely obsolete even as a consumer standard and has been replaced in the marketplace by digital video formats, which have smaller form factors. The magnetic tape on VHS-C
VHS-C
cassettes is wound on one main spool and used a gear wheel which moves the tape forward. It can also be moved by hand. This development hampered the sales of the Betamax
Betamax
system somewhat, because the Betamax
Betamax
cassette geometry prevented a similar development. VHS-C
VHS-C
cassette was larger than Video8
Video8
cassette, but was compatible with VHS
VHS
tape recorders, using a special adapter cassette. The adapter contains a standard full-size engagement hub for the VCR's takeup sprocket, which connected to a gear train to drive the VHS-C
VHS-C
cassette takeup gear. VHS
VHS
end of tape is normally detected by a light in the VCR that inserts into the full-size cassette body, and detected by sensors in the VCR located at the far outer corners of the front of the cassette. Because the width of VHS-C
VHS-C
is narrower than a full-size VHS
VHS
cassette and does not align with the full-size end of tape sensors, the adapter has a guide roller swing arm to pull tape out of the VHS-C
VHS-C
cartridge out to the far right edge where it would normally be located in a full-size cassette. When the VHS-C
VHS-C
cartridge is to be removed from the adapter, a geared retraction system pulls in the excess loose tape when the swing arm retracts. A higher quality version of VHS-C
VHS-C
was released, based on S-VHS, known as S-VHS-C, that competed against Hi8, the higher quality version of Video8. The arrival on the market of inexpensive S- VHS-C
VHS-C
camcorders led to the inclusion on many modern VCRs of a feature known as SQPB, or Super VHS
VHS
Quasi-PlayBack, but did not make a significant impact on the market as the arrival of MiniDV
MiniDV
as a consumer standard made low-cost, digital, near-broadcast quality video widely available to consumers, and rendered analog camcorders largely obsolete. Compared with Video8, VHS-C
VHS-C
had similar video quality but a shorter run time, 90 versus 30 minutes at SP speed (for standard cassettes), 180 versus 60 for longer-running modes. JVC
JVC
did market 45-minute and 60-minute SP Mode tapes with the Extra High Grade formulation (135 minutes and 180 minutes in EP/SLP Mode) for a time. Similarly, Video8 spawned a 120-minute version of the cassette (240 minutes in long play).

A size comparison between the original VHS
VHS
format, VHS-C, and the more recent MiniDV.

The later Hi8
Hi8
and S- VHS-C
VHS-C
systems both have a quality similar to the laserdisc system. Although Video8
Video8
acquired a digital variant, Digital8, D- VHS
VHS
was never adapted to a compact format, as the consumer camcorder industry moved on to small-format MiniDV
MiniDV
tapes, then hard-drive- and DVD-based machines, and then solid-state storage.

Contents

1 Slackening Problem 2 Write Protect Imperfection 3 VHS-C
VHS-C
head drum 4 References 5 External links

Slackening Problem[edit] Early VHS-C
VHS-C
cassettes did not have a mechanism to ratchet or lock the supply reel when not in use, making them susceptible to spilling tape inside the shell. Consequently, manufacturers placed a label on their camcorders and adapters to warn the user to check that the tape is not slackened before inserting a cassette. The user could dissipate the slack by manually turning the take-up gear. Later cassettes corrected this problem by adding teeth to the supply reel to lock it in place when no upward pressure is applied. The spindle of the camcorder or VCR supplies pressure to float the reel's turntable and teeth above the shell, allowing it to rotate freely when in use. If a tape with slack was loaded into a VHSC-C adapter, the tape could sit on the wrong side of a tape guide when the adapter loaded. The result would be a tape and cassette combination that would not play in a video deck, and would damage the tape to some extent when being unloaded. Write Protect Imperfection[edit] VHS-C
VHS-C
cassettes have a switch to inhibit recording of a cassette. Not all adapters propagate the state of this switch to the VCR itself, so accidental erasure of a write-protected cassette is possible if the adapter's write protect lug or switch allows it. VHS-C
VHS-C
head drum[edit] To reduce the size of cameras, the VHS-C
VHS-C
mechanism uses a two-thirds size head drum (41.3 mm diameter instead of the original VHS
VHS
drum size of 62 mm). The wrap angle is 270 degrees instead of VHS's 180 degrees. The drum rotates at a proportionately higher speed, and four rotary video heads are used to trace out exactly the same helical recording path as a standard sized VHS
VHS
drum. By adding more heads, the same small VHS-C
VHS-C
drum can record and playback FM Hi-Fi audio that is also fully compatible with a standard sized Hi-Fi video drum. References[edit]

^ "1982 VHS-C". Victor Company of Japan Ltd. (JVC). "Copyright 2001-2003". Archived from the original on April 2, 2007. Retrieved 2007-08-06. HR-C3 The first model of portable VCR to use VHS-C cassette  Check date values in: date= (help) ^ http://www.videointerchange.com/video-history.htm#VHS

External links[edit]

youtube.com How to put VHS-C
VHS-C
videos into Computer - Easy! youtube.com V2 Tech Video
Video
View - Dynex VHS-C
VHS-C
-to- VHS
VHS
Cassette Adapter MediaCollege.com The VHS-C
VHS-C
Format panasonic.com VHS-C
VHS-C
FAQ

v t e

Video
Video
storage formats

Videotape

Analog

Quadruplex (1956) VERA (1958) Ampex 2 inch helical VTR (1961) Sony 2 inch helical VTR (1961) Type A (1965) CV-2000 (1965) Akai (1967) U-matic
U-matic
(1969) EIAJ-1
EIAJ-1
(1969) Cartrivision (1972) Philips VCR (1972) V-Cord (1974) VX (1974) Betamax
Betamax
(1975) IVC (1975) Type B (1976) Type C (1976) VHS
VHS
(1976) VK (1977) SVR (1979) Video
Video
2000 (1980) CVC (1980) VHS-C
VHS-C
(1982) M (1982) Betacam
Betacam
(1982) Video8
Video8
(1985) MII (1986) S- VHS
VHS
(1987) S- VHS-C
VHS-C
(1987) Hi8
Hi8
(1989) Ruvi (1998)

Digital

D1 (1986) D2 (1988) D3 (1991) DCT (1992) Digital Betacam
Betacam
(1993) D5 (1994) Digital-S
Digital-S
(D9) (1995) Betacam
Betacam
SX (1996) Digital8
Digital8
(1999) MicroMV
MicroMV
(2001)

High Definition

Sony HDVS
Sony HDVS
(1984) UniHi (1984) W- VHS
VHS
(1994) HDCAM
HDCAM
(1997) D- VHS
VHS
(1998) D6 HDTV VTR
D6 HDTV VTR
(2000) HDV
HDV
(2003) HDCAM
HDCAM
SR (2003)

Videodisc

Analog

Phonovision (1927) Ampex-HS (1967) TeD (1975) LaserDisc
LaserDisc
(1978) CED (1981) VHD (1983) Laserfilm
Laserfilm
(1984) CD Video
Video
(1987) VSD (c. 1987)

Digital

VCD (1993) MovieCD
MovieCD
(1996) DVD
DVD
(1996) Mini DVD
DVD
(c. 1996) DVD- Video
Video
(1997) CVD (1998) SVCD (1998) EVD (2003) PVD (Personal Video
Video
Disc) (2003) HVD (High-Definition Versatile Disc) (2004) UMD (2004) FVD (2005)

High Definition

MUSE Hi-Vision LD (1994) VMD (2006) HD DVD
DVD
(2006) BRD (BD/ Blu-ray
Blu-ray
disc) (2006) MiniBD (c. 2006) HVD (Holographic Versatile Disc) (2007) CBHD (China Blue High-definition Disc) (2008) UHD BRD (Ultra HD Blu-ray
Blu-ray
disc) (2016)

Virtual

Media agnostic

DV (1995) DVCPRO (1995) DVCAM (1996) DVCPRO50 (1997) DVCPRO HD (2000)

Tapeless

CamCutter Editcam (1995) XDCAM
XDCAM
(2003) MOD (2005) AVCHD
AVCHD
(2006) AVC-Intra (2006) TOD (2007) iFrame (2009) XAVC (2012)

Solid state

P2 (2004) SxS (2007) MicroP2
MicroP2
(2012)

Video
Video
recorded to film

Kinescope
Kinescope
(1947) Telerecording
Telerecording
(1940s) Electronicam
Electronicam
kinescope (1950s) Electronic Vide

.