Control track longitudinal timecode: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 22:36, 7 April 2021 edit 2604:ca00:1cb:4eff::1260:549b (talk) →Control track longitudinal timecode: rambling nonsense Tags: Mobile edit Mobile app edit Android app edit ← Previous edit		Latest revision as of 17:24, 24 August 2025 edit undo Patternbuffered (talk \| contribs) 211 edits Added ref Tags: Newcomer task Newcomer task: references
(2 intermediate revisions by 2 users not shown)
Line 2: {{Unreferenced\|date=December 2009}} {{cleanup\|reason=strongly opinionated arguing, not encyclopedic\|date=January 2019}} {{notability \|date=July 2025}} }} '''[[Control track]] longitudinal timecode''', or '''CTL timecode''', developed by [[JVC]] in the early 1990s, is a unique technique for embedding, or ''striping'', reference [[SMPTE]] [[timecode]] onto a videotape. Similar to the way [[VITC]] timecode is embedded in the vertical interval area of a video signal, CTL timecode embeds SMPTE timecode in the ''[[control track]]'' area of [[helical scan]] video recordings. The advantage of both VITC and CTL timecode is that an audio track does not have to be sacrificed for [[linear timecode]]. Line 12 ⟶ 13: When it was introduced, there was much negativity about CTL timecode, because people misunderstood how it worked. Many incorrectly assumed that CTL timecode was nothing more than a ''control track pulse'' signal. Control Track Pulse: Most are familiar with the digital "counters" on VHS recorders and camcorders, viewed via the onscreen display (OSD) and/or a dedicated LED display. These numbers are sometimes in real -time format (hours:minutes:seconds), but are often only an ambiguous 4 digit sequential counter. These numbers advance up or down based on the machine counting a tape's control track pulses. This type of display is useful only as a simple and temporary reference, as it is very inaccurate, and the counter is reset to zero when a tape is inserted. A basic 4 digit counter is almost completely worthless, as their rate of advance was never standardized by manufacturers. Conversely, CTL timecode is an ''absolute'' timecode with specific digital references for every frame of video.<ref>{{Cite web \|title=BR-S500U S-VHS PLAYER, EDIT FEEDER \|url=http://pro.jvc.com/prof/attributes/tech_desc.jsp?model_id=MDL100042&feature_id=02#:~:text=the%20BR%2DS500U.-,CTL%20TIME%20CODE%20SYSTEM,-The%20BR%2DS500U/ \|archive-url=https://web.archive.org/web/20240823020024/http://pro.jvc.com/prof/attributes/tech_desc.jsp?model_id=MDL100042&feature_id=02 \|archive-date=2024-08-23 \|access-date=2025-08-24 \|website=JVC Professional Video \|language=en}}</ref> Thus, a tape with CTL timecode can always display current timecode position accurately, even if the tape is moved from one machine to another. CTL timecode embedding can be transferred when making a copy, as long as the recording machine supports CTL timecode. Because CTL timecode ''is'' SMPTE timecode, its timecode can be interchanged with other SMPTE timecode schemes, like VITC and LTC (linear, audio track) timecode, as well as SMPTE timecode devices like timecode readers, generators, window dub inserters, MIDI synchronizers, and edit controllers. CTL timecode is vulnerable to any gaps or problems in a tape's control track, but so is LTC and VITC timecode. The acronym ''LOCT'' (pronounced ''locked''), used by many video professionals, can mean "Loss of Control Track", and/or "Loss of Continuous Timecode". ==See also== [[AES-EBU embedded timecode]]▼ [[control track]] [[Linear timecode]] [[Vertical interval timecode]] [[Burnt-in timecode]] [[MIDI timecode]] ▲[[AES-EBU embedded timecode]] [[Rewritable consumer timecode]]