Chapter 8
8.5 Menu Settings
Brand Type
RealD CrystalEyes 1, 2, 3, 5
NuVision APG6000, APG6100
XPand X101, X103 (with NuVision Long-Range Emitter), X104LX
NVidia 3D Vision Pro (RF sync’ed)
Volfoni EDGE (with Volfoni or NuVision LR Emitter)
Virtalis ActiveWorks 500
Table 8.9: Overview of validated shutter glasses
Option Description
source configure the type of synchronization to be used
frequency [Hz] enter the tracking frequency manually (max. frequency de-
pendent on camera model and selected camera mode)
divisor for external signal reduce the tracking frequency by a factor 1 - 10 (only for ex-
ternal synchronization)
Delay [us] configure the delay between the syncgroups
Source The available options ’internal’, ’video’, ’ttl’ and ’ttlboth’ are equivalent to the
aforementioned supported synccard modes (see table 8.8 on page 152). Additionally the
option ’ttlinv’ is available, which inverts the external synchronization signal (i.e. switches
TTL high / low states to trigger on falling edge instead of rising).
Frequency [Hz] The tracking frequency can be set between 10 Hz and the max. frame-
rate of the cameras in steps of 1 Hz. The max. frame-rate depends on the camera model
and the selected camera mode. Please refer to chapter 8.5.1 on page 146 for more
information.
Divisor for external signal If the frequency of the external synchronisation source is higher
than the max. frame rate of the cameras, a divisor can be set to reduce the frequency
accordingly. The max. frame-rate depends on the camera model and the selected camera
mode. Please refer to chapter 8.5.1 on page 146 for more information.
Delay [us] When assigning cameras to different syncgroups (e.g. due to mutual blinding
4.8.2.1 on page 49), the time delay for each syncgroup channel is preset for compatibility
with active markers by ART .
These channels correspond to the three syncgroup outputs (#1: 0 µs, #2 480 µs , #3: 960
µs on the ART Controller). If necessary these values can be changed individually.
Note: The max. delay is limited dependent on the camera model. Additionally a difference
of min. 300 µs between consecutive channels has to be maintained.
Example: Channel 1: 1200 µs, Channel 2: 1500 µs, Channel 3: 1800 µs
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