HD24/96 Technical Reference

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There are times you may want to offset the position of two devices with respect to each other, but still keep them synchronized to each other. For example, you may have a tape containing audio that starts at 18:22:12:00, but you want to record this material to your HDR24/96 starting at 1:00:00:00. In the HDR24/96, you can set the Time Code Offset parameter to offset the position of the HDR24/96 transport with respect to incoming time code according to the following rule:

Time Code In + Time Code Offset = Transport Position

Offsets can be either negative or positive. The above problem is solved by using a negative offset of 17:22:12:00 such that:

18:22:12:00+ (-17:22:12:00) = 1:00:00:00

In the HDR24/96 time code output always follows the transport position. Time Code Offsets are supported by nearly every time code-capable device.

Similar to the Time Code Offset in the HDR24/96 is the Song Offset. The Song Offset determines what time code time corresponds to the downbeat of the first measure in BarsBeatsTicks display mode. Instead of affecting the time code input, the Song Offset affects only the display. Using the same example, a Song Offset of 18:22:12:00 corresponds to BBT 1:1:000. Some devices do not support display-only offsets like the HDR24/96 Song Offset.

A Word or Three about Pull-Ups and Pull-Downs

Probably no aspect of synchronization causes more confusion than pull-ups and pull-downs. That’s why we left this subject for last. Simply put, a pull-up or pull-down is the raising or lowering of the speed of a device above or below the “standard” speed.

The only reason that pull-ups and downs exist is due to the Telecine process by which film is transferred to video.

Worldwide, films that are destined for theatrical release are shot on film that runs at 24 fps. In the US, after a film is shot, it is typically transferred to NTSC color video and edited on a non-linear video editing system. Once the film editing is complete, video work prints are sent out to the various parties involved in audio post production for the film.

Because NTSC color video runs at 29.97 fps and film runs at 24 fps, there is a non-integer ratio between the number of video and film frames. To accomplish the transfer, the film is slowed down by .1% to 23.976 fps to establish an integer relationship of 5 video frames to every 4 film frames. This slowing down of the film IS the pull-down. The film and video frames are then transferred by alternating between using three and two video fields (not frames) per film frame in a process called 2:3 pulldown, as shown in the illustration below.