ViewCast 240E, 450E manual Test Mode, Restore Defaults, Close

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Setting Driver Properties

 

deinterlacing but uses slightly more processing power.

 

The 3-frame algorithm adds one frame time of latency to video

 

processing, whereas the 2-frame algorithm (when used in pure

 

Motion Adaptive mode) does not (see Effects on video latency).

 

The 2-frame algorithm is the default because of the reduced latency, and

 

because the quality difference is hard to see.

 

Note: The choices for deinterlacing algorithms are revised for the

 

4.6.1 driver. The 2-frame algorithm is an enhancement of

 

what was formally called the “smooth” algorithm. The 3-

 

frame algorithm is new for this driver.

 

 

Test Mode

The Test Mode option causes the motion adaptive algorithm to enter a

 

test mode that displays motion pixels as bright white or colored dots in

 

place of the actual pixels of the image. The dots are mainly along edges

 

that are in motion. If the motion threshold is set too low there may also

 

be a random distribution of motion pixels caused by pixel jitter and

 

instability of the video signal. If the motion threshold is set too high,

 

there will be few or no altered pixels, and deinterlacing will be

 

insufficient. Test mode is always automatically exited when you exit the

 

Adjust dialog.

 

 

Restore Defaults

Click this button to restore the default settings.

 

 

Help

Click Help to access the user guide.

 

 

Close

Click Close to close the window.

 

 

Effects on video latency

Note: Drivers prior to 4.6.1 always added one frame time of latency regardless of deinterlacing settings. The option for zero frames of latency is new to the 4.6.1 driver.

Some deinterlacing modes introduce one frame time of latency to the processing of captured video frames. That is, the processing adds 33 msec (525-line, NTSC), or 40 msec (625-line, PAL/SECAM) of delay to the time between end of frame capture, and return to the client. In all cases, this latency is in addition to the time for processing after capture – which is typically 1 to 5 msec. The one frame of latency is inserted or not inserted as follows:

If deinterlace mode Off, there are zero frames of latency.

If you request Motion Adaptive and select 2-Frame algorithm, there are zero frames of latency.

If you request Motion Adaptive and select 3-Frame algorithm, there is one frame of latency.

If you request Inverse Telecine or Auto, there is one frame of latency. In Auto mode, there is one frame of latency regardless of whether you select the 2-Frameor 3-Framealgorithm for Motion Adaptive fallback.

Most applications are not affected by video processing latency. For applications where it is important to reduce latency, the single most important step is to set deinterlacing mode to Off or to

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Contents Osprey 240e/450e User Guide Page Contents AVStream driver reference information Osprey 240e Environmental specifications Osprey 450e Page Warranties Limited WarrantyOverview Reseller Pass ThroughSystem requirements Minimum system requirementsInstallation Steps Installing the driverCustom installing AVStream Installing the video capture cardTo install the video capture card Digital Signature Not Found Window Setting Driver Properties Accessing the Osprey Config UtilityOspreyConfig’s initial processing sequence Initial OspreyConfig user interfaceSelecting a device for configuration Control used to open the properties Understanding the device properties window Osprey Video Device Properties window tabsVideo Decoder InputVideo Proc Amp RefSizeOspreyConfig utility to access devices Devices and global controlsInput tab Input tabVideo Present CancelVideo Input Video StandardOsprey 450e AV option hardware add-on-device Input tab without AV optionVideo input Osprey 450eVideo standard Video Standard fieldInput Format analog inputs Composite cameraVideoCheck VideoGraphVbiGraph VideoGraphVideo Proc Amp tab Video Proc Amp TabFrequency Anti Flicker Default Color EnablePowerLine BrightnessVideo Decoder tab Video Decoder tabLines detected Signal DetectedOutput Enable VCR InputHorizontal Horizontal DelayRefSize tab FormatSquare Pixels Horizontal FormatCCIR-601 Wide Horizontal DelaySignal WSS Use WideScreenSource Width Source WidthReference Size for Crop and Logo Placement Video Type Format HW or SW Adds CPU GranularityLine Ntsc Vertical Format Line Ntsc Vertical FormatSimulStream Currently UsingFilters tab DeinterlaceSimulStream SimulStream optionMultiple instances Osprey 240e/450e User Guide Inverse Telecine Adjust…Deinterlace Motion AdaptiveBackground − telecine and inverse telecine Currently Using group Current Using settingsMotion Threshold Adaptive Deinterlace windowFrame Algorithm Restore Defaults Test ModeClose Osprey 240e/450e User Guide Device tab No-Video Test Pattern Buffers RequestedDiagnostic logging Diagnostic LoggingTypical section of data Device Info Board NumberingBoard Numbering Setting Driver Properties Closed Caption ExtrasTimecode Video Marking TimestampingCaptions tab Captions tabPin Select Render Ntsc Closed Captions On Video Render Logical White AsCC Pin CC PinLogo tab Enable Logo onFile and Color sub Tab Enable Key Color On File and Color Sub tabOsprey 240e/450e User Guide File and Color Pin SelectEnable Key Color Enable Key ColorWeighting Position and SizeOsprey 240e/450e User Guide Size and Crop tab Size and Crop tabReference Size Enable CroppingDefault Output Reference SizeGranularity Format Horizontal VerticalEnable Cropping Enable CroppingRecalc button Default Output Size Default Output SizePage AVStream driver reference information DirectShowAVStream Driver Reference Information Post-Processing mode Post-Processing modeAVStream Driver Reference Information Preview Pin to Video Renderer Efficient Video RenderingPreview Pin to Overlay Mixer to Video Renderer Preview Pin to VMR7 Video Mixing RendererPreview Pin to VMR9 Some Data PointsAVStream Driver Reference Information Video standards and sizes Color formatsYUV format details Captioning via CC or VBI pins Closed captioning CCDirect CC rendering on video CC streaming interface Vertical Interval Timecode VitcVertical Blanking Interval VBI capture Timecode Video MarkingSelecting the audio source and input volume Audio driverAudio Driver Audio properties Audio propertiesAudio formats Audio configurationMono Source Mode Audio playbackDual Mono Audio level Input reference levelEnvironmental specifications Appendix a Osprey hardware specificationsOsprey 240e Osprey 240e long back plate Osprey 450e Osprey 450e back plateAppendix a Osprey Hardware Specifications Mini-DIN Signal RCA Connectors Appendix B Osprey 450e audio cablePage Color bars on video screen Appendix C TroubleshootingScrambled video image Multiple horizontal lines across video image Poor video quality at large frame sizesCannot play back recorded audio Osprey 240e/450e User Guide Page Index Appendix C Troubleshooting Osprey 240e/450e User Guide Viewcast.com
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